JVAT Journal of Current Viruses and Treatment Methodologies 2691-8862 Open Access Pub United States 10.14302/issn.2691-8862.jvat-20-3275 JVAT-20-3275 research-article RETRACTED: Recent New Results and Achievements of California South University (CSU) BioSpectroscopy Core Research Laboratory for COVID-19 or 2019-nCoV Treatment: Diagnosis and Treatment Methodologies of “Coronavirus” Alireza Heidari 1 2 * Angela Caissutti 1 Maria Henderson 1 Katrina Schmitt 1 Elizabeth Besana 1 Jennifer Esposito 1 Victoria Peterson 1 Faculty of Chemistry, California South University, 14731 Comet St. Irvine, CA 92604, USA American International Standards Institute, Irvine, CA 3800, USA corresponding author Alireza Heidari, Faculty of Chemistry, California South University, 14731 Comet St. Irvine, American International Standards Institute, USA. Email: Scholar.Researcher.Scientist@gmail.com

The authors have declared that no competing interests exist.

 21 03 2020 1 1 3 41 16 03 2020 19 03 2020 21 03 2020 © 2020 Alireza Heidari, et al This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. This article is available from http://openaccesspub.org//jvat/article/1290

Coronavirus nanoparticles show a strong peak of Plasmon absorption in ultraviolet–visible zone. A strong interaction exists between the surface of Coronavirus nanoparticles and Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406). Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) cause to aggregation of Coronavirus nanoparticles linked to DNA/RNA and hence, lead to widening of peak Plasmon of Coronavirus nanoparticles surface at 550 (nm) and emerging a new peak at higher wavelength. In the current project, this optical characteristic of Coronavirus nanoparticles is used to time investigate of interaction between different Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) and Coronavirus nanoparticles. The results were shown that Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with shorter chain length interact faster with Coronavirus nanoparticles. Therefore, a simple and fast method for identification of Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with various chain length using red shift in surficial Plasmon absorption is presented.

 Bcr–Abl Tyrosine–Kinase Inhibitors (TKI) Peak Plasmon Absorption Aggregation Coronavirus Nanoparticles DNA/RNA Imatinib (STI571) Nilotinib (AMN107) Dasatinib (BMS–345825) Bosutinib (SKI–606) Ponatinib (AP–24534) Bafetinib (INNO–406) This article has been retracted on March 01, 2021. <ext-link xlink:href="https://doi.org/10.14302/issn.2691-8862.jvat-25-5764" ext-link-type="uri">VIEW THE RETRACTION NOTICE</ext-link> (<ext-link xlink:href="https://doi.org/10.14302/issn.2691-8862.jvat-25-5764" ext-link-type="uri">https://doi.org/10.14302/issn.2691-8862.jvat-25-5764</ext-link>) Concise Biography of Research Group Leader and Director of the Bio Spectroscopy Core Research Laboratory

Prof. Dr. Alireza Heidari, Ph.D., D.Sc. is a Full Distinguished Professor and Academic Tenure of Chemistry and also Enrico Fermi Distinguished Chair in Molecular Spectroscopyat California South University (CSU), Irvine, California, USA. He has got his Ph.D. and D.Sc. degrees from California South University (CSU), Irvine, California, USA. Furthermore, he has double postdocs in Project Management, Oncology, Human Cancer Tissues and Synchrotron Radiation from Monash University, Melbourne, Victoria, Australia and also in Nanochemistry and Modern Molecular Electronic–Structure Computations Theory from California South University (CSU), Irvine, California, USA. His research interests include Biophysical Chemistry, Biomolecular Spectroscopy, Quantum Chemistry, Nanochemistry, Modern Electronic Structure Computations, Theoretical Chemistry, Mathematical Chemistry, Computational Chemistry, Vibrational Spectroscopy, Molecular Modelling, Ab initio & Density Functional Methods, Molecular Structure, Biochemistry, Molecular Simulation, Pharmaceutical Chemistry, Medicinal Chemistry, Oncology, Synchrotron Radiation, Synchrocyclotron Radiation, LASER, Anti–Cancer Nano Drugs, Nano Drugs Delivery, ATR–FTIR Spectroscopy, Raman Spectroscopy, Intelligent Molecules, Molecular Dynamics, Biosensors, Biomarkers, Molecular Diagnostics, Numerical Chemistry, Nucleic Acids, DNA/RNA Monitoring, DNA/RNA Hypermethylation & Hypomethylation, Human Cancer Tissues, Human Cancer Cells, Tumors, Cancer Tissues, Cancer Cells, etc. He has participated at more than five hundred reputed international conferences, seminars, congresses, symposiums and forums around the world as yet. Also, he possesses many published articles in Science Citation Index (SCI)/International Scientific Indexing (ISI), Medline/PubMed and Scopus Journals. It should be noted that he has visited many universities or scientific and academic research institutes in different countries such as United States, United Kingdom, Canada, Australia, New Zealand, Scotland, Ireland, Netherlands, Belgium, Denmark, Luxembourg, Romania, Greece, Russia, Estonia, Ukraine, Turkey, France, Swiss, Germany, Sweden, Norway, Italy, Austria, Czech Republic, Hungary, Poland, South Africa, Egypt, Brazil, Spain, Portugal, Mexico, Japan, Singapore, Malaysia, Indonesia, Thailand, Taiwan, Hong Kong, South Korea, China, India, Kingdom of Saudi Arabia, Jordan, Qatar, United Arab Emirates, etc. as research fellow, sabbatical and volunteer researcher or visitor and so on heretofore. He has a history of several years of teaching for college students and various disciplines and trends in different universities. Moreover, he has been a senior advisor in various industry and factories. He is expert in many computer programs and programming languages. Hitherto, he has authored more than twenty books and book chapters in different fields of Chemistry. Syne, he has been awarded more than one thousand reputed international awards, prizes, scholarships and honors. Heretofore, he has multiple editorial duties in many reputed international and peer–reviewed journals, books and publishers. Hitherward, he is a member of more than five hundred reputed international academic–scientific–research institutes around the world. It should be noted that he is currently the President of American International Standards Institute (AISI), Irvine, California, USA and also Director of the BioSpectroscopy Core Research Laboratory at California South University (CSU), Irvine, California, USA.

</caption> <graphic xlink:href="images/image2.jpg" mime-subtype="jpg"/> </fig> <fig id="idm1842331068"> <label>Fourier Transform Raman (FT–Raman) spectra of DNA/RNA during hydration to dehydration transition (a) before and (b) after aggregation linked to Coronavirus Nanoparticles.</label> <caption> <title/> </caption> <graphic xlink:href="images/image3.jpg" mime-subtype="jpg"/> </fig> </sec> <sec id="idm1849471060" sec-type="intro"> <title>Introduction

Investigations about Coronavirus nanoparticles are widely developed due to their considerable optical characteristics and potential application in optical devices, sensors and optical circuits specially in diagnostic and treating medical sciences 1234567891011. Coronavirus nanoparticles show a strong absorption peak in ultraviolet–visible zone when interact with light. The maximum position of spectrum depends on size, form, inter–particle space and de–electric environment of nanoparticles 12131415161718192021.

There is a high affinity between Bcr–Abl tyrosine–kinase inhibitors (TKI) groups and Coronavirus nanoparticles which leads to aggregation of Coronavirus nanoparticles linked to DNA/RNA. As a result of this aggregation, the Plasmon absorption peak of Coronavirus nanoparticles widen at 550 (nm) and a new peak emerges at higher wavelength. Numerous researches have been performed about Coronavirus nanoparticles aggregation linked to DNA/RNA and application of this characteristic of Coronavirus nanoparticles for identification of target analytes and producing sensors 222324252627282930313233343536373839. In a research, chemical absorption of Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) on Coronavirus colloid at the presence of sodium hydroxide was investigated; the results were shown that the largeness of these changes depends on pH, chain length and the end of Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib(INNO–406) chains 4041424344454647484950515253545556. At another research, the effective factors on controlling the optical characteristics of Coronavirus nanoparticles aggregation linked to DNA/RNA including oligonucleotides linked with various lengths (72–24 pairs) were studied. This test was shown that optical characteristics of DNA/RNA aggregation linked to Coronavirus nanoparticles are controlled with size of aggregation and ignoring the chain length of oligonucleotides which is important for colorimetric identification based on nanoparticle, it was shown that optical effects are more dependent to size of aggregation which in turn, it is under kinetic control 57585960616263646566676869. The rate of band change of surface Plasmon is conversely related to the length of DNA/RNA connections so that 24 chains systems (shortest) have shown the highest change in rate 707172737475767778798081.

Bcr–Abl tyrosine–kinase inhibitors (TKI) are important compounds in chemical synthesizes, environment, gas and petrochemical industries and biology 828384858687888970717273747576777879808181828384858687888990919293949596979899. In the current research, optical characteristic of Coronavirus nanoparticles is used to time identification of Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with various chain length. In previously used methods for identification of Bcr–Abl tyrosine–kinase inhibitors (TKI) in petrochemical and oil industry, only total Bcr–Abl tyrosine–kinase inhibitors (TKI) could be identified; however, the current method can identify Bcr–Abl tyrosine–kinase inhibitors (TKI) with various chain lengths which is very important for making sensors of these compounds 100101102103104105106107108109110112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163.

 Materials and Experimental Methodology and Techniques Preparing Coronavirus Nanoparticles and Description of Coronavirus Nanoparticles Aggregation Linked to DNA/RNA

All glass wears used in this test was washed with a solution of HCl: HNO3 with concentration ratio of 3:1 and then, with deionized water and acetone and afterwards, dried in air. In this project, Terkovic method was used for synthesizing the Coronavirus nanoparticles. A 0.05 (gr) of hydrogen tetra coloro–urate (H Bcr–Abl tyrosine–kinase inhibitors (TKI) Cl4, 3H2O) was solved in 100 (ml) of water and then, was indirectly heated under 150 º C temperature and stirring rate of 500 (rpm) in a balloon connected to a cooler. When Coronavirus solution was boiled, 2.5 (ml) solution of sodium citrate of 0.05 (M) was added and the colloidal solution of Coronavirus was gradually produced with reduction of Coronavirus ions (III). The color of initial solution was mellow yellow. The color of this solution was gradually changed to blue, violet and dark red. At the end of test, the color was dark red. The size of produced nanoparticles was 25 (nm). The size of Coronavirus nanoparticles was determined by DLS. In order to time investigate the interaction of Coronavirus nanoparticles, Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with various lengths were added to Coronavirus nanoparticles at room temperature 164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232234235236237238239240241242243244245246247248249250251252253254255256.

 Discovery, Synthesis, Molecular Structure, Characteristics, Generation, Development and Resistance Anti–Coronavirus Drugs

Imatinib remains a standard frontline Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406). Nilotinib and dasatinib are also approved by the FDA as frontline drugs, in June and October 2010, respectively (Figure 1, Figure 2, Figure 3, Figure 4, Figure 5, Figure 6, Figure 7, Figure 8, Figure 9). Four of these drugs, nilotinib, dasatinib, bosutinib and ponatinib are approved for the treatment of imatinib–resistant or intolerant CML. The first–line data for these compounds are encouraging and suggest that some or all of them may replace imatinib as a frontline standard Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) in the future (Table 1) 257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348. (Figure 1, Figure 2, Figure 3, Figure 4, Figure 5, Figure 6, Figure 7, Figure 8, Figure 9).

Bcr–Abl tyrosine–kinase inhibitors (TKI) characteristics.
Evolution of Pyrimidin A to imatinib. Imatinib in its binding site. Nilotinib in its binding site. Dasatinib in its binding site. Bosutinib molecular structure. Ponatinib development history. Ponatinib in its binding site. Bafetinib in its binding site. Proposed binding site interactions of substance. Results and Discussion

The absorption spectrum of Coronavirus nanoparticles was recorded in various times with Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with various chain lengths as shown in Figure 10, Figure 11 and Figure 12. As can be seen in these figures, peak is decreased at 573 (nm) and a new peak is emerged at higher wavelength which gradually increased with time and after reaching to the maximum, the absorption decreases which is due to complete aggregation linked to DNA/RNA and instability of the produced Coronavirus nanoparticles.

(a) Absorption spectrum of Coronavirus nanoparticles–Bcr–Abl tyrosine–kinase inhibitors (TKI) during 0–1200 (s). (b) Absorption curve against time for Coronavirus nanoparticles–Bcr–Abl tyrosine–kinase inhibitors (TKI) at maximum wavelength. (a) Absorption spectrum of Coronavirus nanoparticles–Bcr–Abl tyrosine–kinase inhibitors (TKI) during 0–1200 (s). (b) Absorption curve against time for Coronavirus nanoparticles–Bcr–Abl tyrosine–kinase inhibitors (TKI) at maximum wavelength. (a) Absorption spectrum of Coronavirus nanoparticles– Bcr–Abl tyrosine–kinase inhibitors (TKI) during 0–1200 (s). (b) Absorption curve against time for Coronavirus nanoparticles– Bcr–Abl tyrosine–kinase inhibitors (TKI) at maximum wavelength.

The results show that Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with shorter chain length lead to faster aggregation of Coronavirus nanoparticles linked to DNA/RNA than ones with longer chain length. In other words, at shorter time, Coronavirus nanoparticles is aggregated with Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with shorter chain length at higher wavelength compared to absorption spectrum of Coronavirus nanoparticles aggregated with Bcr–Abl tyrosine–kinase inhibitors (TKI) chains with longer chain length. As can be seen in Figure 13, during 90 (s), Bcr–Abl tyrosine–kinase inhibitors (TKI) emerged at higher wavelength (812.49 nm) than phenyl (777.91 nm) and Bcr–Abl tyrosine–kinase inhibitors (TKI) (a wide peak between 500–760 nm) and hence, Bcr–Abl tyrosine–kinase inhibitors (TKI) chains with various chain length can be identified through controlling the aggregation time.

(a) Absorption spectrum of Coronavirus nanoparticles with various Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) during 90 (s) (concentration of Bcr–Abl tyrosine–kinase inhibitors (TKI) NPs is equal to 250 ppm and 2.5 ml used, Bcr–Abl tyrosine–kinase inhibitors (TKI) 60 nmol, Bcr–Abl tyrosine–kinase inhibitors (TKI) 45.5 nmol and Bcr–Abl tyrosine–kinase inhibitors (TKI) 55.5 nmol). (b) Absorption curve against time for Coronavirus nanoparticles– Bcr–Abl tyrosine–kinase inhibitors (TKI) at optimum wavelength.

The optical difference for aggregation of Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) connected to chains with various lengths to Coronavirus nanoparticles can be attributed to size of aggregation linked to DNA/RNA and inter–particle distance.

 Conclusions, Useful Suggestions and Future Studies

In the current study, optical characteristics of peal Plasmon of absorption of Coronavirus nanoparticles was used to identify Bcr–Abl tyrosine–kinase inhibitors (TKI) with various chain length and through time controlling, they were identified successfully. It was observed that the second peak at wavelength between 500–760 (nm) induced by interaction of Bcr–Abl tyrosine–kinase inhibitors (TKI) with Coronavirus nanoparticles in Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with shorter chain length at shorter time duration observe at higher wavelength than Bcr–Abl tyrosine–kinase inhibitors (TKI) such as Imatinib (STI571), Nilotinib (AMN107), Dasatinib (BMS–345825), Bosutinib (SKI–606), Ponatinib (AP–24534) and Bafetinib (INNO–406) with longer wavelength.

Authors are supported by an American International Standards Institute (AISI) Future Fellowship Grant FT2019009372020 and also a California South University (CSU) Fellowship Grant FT19203467202097363. We acknowledge Ms. Isabelle Villena for instrumental support and Dr. Michael N. Cocchi for constructing graphical abstract figures. We gratefully acknowledge Prof. Dr. Christopher Brown for proof reading the manuscript. Synchrotron beam time was awarded by the National Synchrotron Light Source (NSLS–II) under the merit–based proposal scheme.

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Computational Study on Molecular Structures of C20, C60, C240, C540, C960, C2160 and C3840 Fullerene Nano Molecules under Synchrotron Radiations Using Fuzzy Logic” 2016 J Material Sci Eng 5 282 Heidari A Graph Theoretical Analysis of Zigzag Polyhexamethylene Biguanide, Polyhexamethylene Adipamide, Polyhexamethylene Biguanide Gauze and Polyhexamethylene Biguanide Hydrochloride (PHMB) Boron Nitride Nanotubes (BNNTs) 2016 Amorphous Boron Nitride Nanotubes (a–BNNTs) and Hexagonal Boron Nitride Nanotubes (h–BNNTs)”, J Appl Computat Math 5 143 Heidari A The Impact of High Resolution Imaging on Diagnosis” 2016 Int J Clin Med Imaging 3 1000 101 Heidari A A Comparative Study of Conformational Behavior of Isotretinoin (13–Cis Retinoic Acid) and Tretinoin (All–Trans Retinoic Acid (ATRA)) Nano Particles as Anti–Cancer Nano Drugs under Synchrotron Radiations Using Hartree–Fock (HF) and Density Functional Theory (DFT) 2016 Methods”, Insights in Biomed 1 2 Heidari A Advances in Logic 2016 Operations and Computational Mathematics”, J Appl Computat Math 5 5 Heidari A 2016 Mathematical Equations in Predicting Physical Behavior”, J Appl Computat Math 5 5 Heidari A Chemotherapy a Last Resort for Cancer Treatment” 2016 Chemo Open Access 5 4 Heidari A Separation and Pre–Concentration of Metal Cations–DNA/RNA Chelates Using Molecular Beam Mass Spectrometry with Tunable Vacuum Ultraviolet (VUV) Synchrotron Radiation and Various Analytical Methods”, Mass Spectrom Purif Tech 2: e101 2016 Heidari A Yoctosecond Quantitative Structure–Activity Relationship (QSAR) and Quantitative Structure–Property Relationship (QSPR) under Synchrotron Radiations Studies for Prediction of Solubility of Anti–Cancer Nano Drugs in Aqueous Solutions Using Genetic Function Approximation (GFA) Algorithm”, Insight Pharm Res 2016 1 1 Heidari A Cancer Risk Prediction and Assessment in Human Cells under Synchrotron Radiations Using Quantitative Structure Activity Relationship (QSAR) and Quantitative Structure Properties Relationship (QSPR) 2016 Studies”, Int J Clin Med Imaging 3 516 Heidari A A Novel Approach to Biology” 2016 Electronic J Biol 12 4 Heidari A Innovative Biomedical Equipment’s for Diagnosis and Treatment” 2016 J Bioengineer & Biomedical Sci 6 2 Heidari A Integrating Precision Cancer Medicine into Healthcare, Medicare Reimbursement Changes and the Practice of Oncology: Trends in Oncology Medicine and Practices” 2016 J Oncol Med & Pract 1 2 Heidari A Promoting Convergence in Biomedical and Biomaterials Sciences and Silk Proteins for Biomedical and Biomaterials Applications: An Introduction to Materials in Medicine and Bioengineering Perspectives” 2016 J Bioengineer & Biomedical Sci 6 3 Heidari A X–Ray Fluorescence and X–Ray Diffraction Analysis on Discrete Element Modeling of Nano Powder Metallurgy Processes in Optimal Container Design” 2017 J Powder Metall Min 6 1 Heidari A Biomolecular Spectroscopy and Dynamics of Nano–Sized Molecules and Clusters as Cross–Linking–Induced Anti–Cancer and Immune–Oncology Nano Drugs Delivery in DNA/RNA of Human Cancer Cells’ Membranes under Synchrotron Radiations: A Payload–Based Perspective”, Arch Chem Res 2017 1 2 Heidari A Deficiencies in Repair of Double–Standard DNA/RNA–Binding Molecules Identified in Many Types of Solid and Liquid Tumors Oncology in Human Body for Advancing Cancer Immunotherapy Using Computer Simulations and Data Analysis: Number of Mutations in a Synchronous Tumor Varies by Age and Type of Synchronous Cancer” 2017 J Appl Bioinforma Comput Biol 6 1 Heidari A Electronic Coupling among the Five Nanomolecules Shuts Down Quantum Tunneling in the Presence and Absence of an Applied Magnetic Field for Indication of the Dimer or other Provide Different Influences on the Magnetic Behavior of Single Molecular Magnets (SMMs) as Qubits for Quantum Computing” 2017 Glob J Res Rev 4 2 Heidari A Polymorphism in Nano–Sized Graphene Ligand–Induced Transformation of Au38–xAgx/xCux(SPh–tBu)24 to Au36–xAgx/xCux(SPh–tBu)24 (x = 1–12) Nanomolecules for Synthesis of Au144–xAgx/xCux[(SR)60 (SC4)60, (SC6)60, (SC12)60, (PET)60, (p–MBA)60, (F)60, (Cl)60, (Br)60, (I)60, (At)60, (Uus)60and(SC6H13)60 Heidari A Biomedical Resource Oncology and Data Mining to Enable Resource Discovery in 2017 Medical, Medicinal, Clinical, Pharmaceutical, Chemical and Translational Research and Their Applications in Cancer Research”, Int J Biomed Data Min 6 103 Heidari A Study of Synthesis, Pharmacokinetics, Pharmacodynamics, Dosing,Stability, Safety and Efficacy of Olympiadane Nanomolecules as Agent for Cancer Enzymotherapy, Immunotherapy, Chemotherapy, Radiotherapy, Hormone Therapy and Targeted Therapy under Synchrotorn Radiation” 2017 J Dev Drugs 6 154 Heidari A A Novel Approach to Future Horizon of Top Seven Biomedical Research Topics to Watch in 2017: Alzheimer&apos;s, Ebola, Hypersomnia, Human Immunodeficiency Virus (HIV), Tuberculosis (TB), Microbiome/Antibiotic Resistance and Endovascular Stroke” 2017 J Bioengineer & Biomedical Sci 7 127 Heidari A Opinion on Computational Fluid Dynamics (CFD) 2017 Technique”, Fluid Mech Open Acc 4 157 Heidari A Concurrent Diagnosis of Oncology Influence Outcomes in Emergency General Surgery for Colorectal Cancer and Multiple Sclerosis (MS) Treatment Using Magnetic Resonance Imaging (MRI) and Au329(SR)84 2017 Au36(pMBA)24 and Au25(pMBA)18 Nano Clusters”, J Surgery Emerg Med 1 21 Au329–xAgx(SR)84, Au144(SR)60, Au68(SR)36, Au30(SR)18, Au102(SPh)44, Au38(SPh)24, Au38(SC2H4Ph)24, Au21S(SAdm)15 Heidari A Developmental Cell Biology in Adult Stem Cells Death and Autophagy to Trigger a Preventive Allergic Reaction to Common Airborne Allergens under Synchrotron Radiation Using Nanotechnology for Therapeutic Goals in Particular Allergy Shots (Immunotherapy)”, Cell Biol (Henderson 2017 NV 6 1 Heidari A Changing Metal Powder Characteristics for Elimination of the Heavy Metals Toxicity and Diseases 2017 J Powder Metall Min in Disruption of Extracellular Matrix (ECM) Proteins Adjustment in Cancer Metastases Induced by Osteosarcoma 6 170 Chondrosarcoma, Carcinoid, Carcinoma, Ewing’s Heidari A Nanomedicine–Based Combination Anti–Cancer Therapy between Nucleic Acids and Anti–Cancer Nano Drugs in Covalent Nano Drugs Delivery Systems for Selective Imaging and Treatment of Human Brain Tumors Using Hyaluronic Acid, Alguronic Acid and Sodium Hyaluronate as Anti–Cancer Nano Drugs and Nucleic Acids Delivery under Synchrotron Radiation” 2017 Am J Drug Deliv 5 2 Heidari A Clinical Trials of Dendritic Cell Therapies for Cancer Exposing Vulnerabilities in Human Cancer Cells’ Metabolism and Metabolomics: New Discoveries, Unique Features Inform New Therapeutic Opportunities, Biotech&apos;s Bumpy Road to the Market and Elucidating the Biochemical Programs that Support Cancer Initiation and Progression” 2017 J Biol Med Science 1 103 Heidari A The Design Graphene–Based Nanosheets as a New Nanomaterial in Anti–Cancer Therapy and Delivery of Chemotherapeutics and Biological Nano Drugs for Liposomal Anti–Cancer Nano Drugs and Gene Delivery” 2017 Br Biomed Bull 5 305 Haidari A Integrative Approach to Biological Networks for Emerging Roles of Proteomics 2017 Genomics and Transcriptomics in the Discovery and Validation of Human Colorectal Cancer Biomarkers from DNA/RNA Sequencing Data under Synchrotron Radiation”, Transcriptomics 5: e117 Heidari A Elimination of the Heavy Metals Toxicity and Diseases 2017 in Disruption of Extracellular Matrix (ECM) Proteins and Cell Adhesion Intelligent Nanomolecules Adjustment in Cancer Metastases Using Metalloenzymes and under Synchrotron Radiation”, Lett Health Biol Sci 2 2 1 4 Heidari A Treatment of Breast Cancer Brain Metastases through a Targeted Nanomolecule Drug Delivery System Based on Dopamine Functionalized Multi–Wall Carbon Nanotubes (MWCNTs) Coated with Nano Graphene Oxide (GO) and Protonated Polyaniline (PANI) in Situ During the Polymerization of Aniline Autogenic Nanoparticles for the Delivery of Anti–Cancer Nano Drugs under Synchrotron Radiation” 2017 Br J Res 4 3 16 Heidari A Sedative, Analgesic and Ultrasound–Mediated Gastrointestinal Nano Drugs Delivery for Gastrointestinal Endoscopic Procedure, Nano Drug–Induced Gastrointestinal Disorders and Nano Drug Treatment of Gastric Acidity” 2017 Res Rep Gastroenterol 1 1 Heidari A Synthesis, Pharmacokinetics, Pharmacodynamics, Dosing, Stability, Safety and Efficacy of Orphan Nano Drugs to Treat High Cholesterol and Related Conditions and to Prevent Cardiovascular Disease under Synchrotron Radiation” 2017 J Pharm Sci Emerg Drugs 5 1 Heidari A Non–Linear Compact Proton Synchrotrons to Improve Human Cancer Cells and Tissues Treatments and Diagnostics through Particle Therapy Accelerators with Monochromatic Microbeams” 2017 J Cell Biol Mol Sci 2 1 1 5 Heidari A Design of Targeted Metal Chelation Therapeutics Nanocapsules as Colloidal Carriers and Blood–Brain Barrier (BBB) Translocation to Targeted Deliver Anti–Cancer Nano Drugs into the Human Brain to Treat Alzheimer’s Disease under Synchrotron Radiation” 2017 J Nanotechnol Material Sci 4 2 1 5 Gobato R Heidari A Calculations Using Quantum Chemistry for Inorganic Molecule Simulation BeLi2SeSi” 2017 Science Journal of Analytical Chemistry 5 76 85 Heidari A Different High–Resolution Simulations of Medical, Medicinal, Clinical, Pharmaceutical and Therapeutics Oncology of Human Lung Cancer Translational Anti–Cancer Nano Drugs Delivery Treatment Process under Synchrotron and X–Ray Radiations” 2017 J Med Oncol 1 1 1 Heidari A A Modern Ethnomedicinal Technique for Transformation, Prevention and Treatment of Human Malignant Gliomas Tumors into Human Benign Gliomas Tumors under Synchrotron Radiation” 2017 Am J Ethnomed 4 1 10 Heidari A Active Targeted Nanoparticles for Anti–Cancer Nano Drugs Delivery across the Blood–Brain Barrier for Human Brain Cancer Treatment, Multiple Sclerosis (MS) and Alzheimer&apos;s Diseases Using Chemical Modifications of Anti–Cancer Nano Drugs or Drug–Nanoparticles through Zika Virus (ZIKV) Nanocarriers under Synchrotron Radiation” 2017 J Med Chem Toxicol 2 3 1 5 Heidari A Investigation of Medical, Medicinal, Clinical and Pharmaceutical Applications of Estradiol, Mestranol (Norlutin), Norethindrone (NET), Norethisterone Acetate (NETA), Norethisterone Enanthate (NETE) and Testosterone Nanoparticles as Biological Imaging, Cell Labeling, Anti–Microbial Agents and Anti–Cancer Nano Drugs in Nanomedicines Based Drug Delivery Systems for Anti–Cancer Targeting and Treatment” 2017 Parana Journal of Science and Education 3 4 10 19 Heidari A A Comparative Computational and Experimental Study on Different Vibrational Biospectroscopy Methods, Techniques and Applications for Human Cancer Cells in Tumor Tissues Simulation, Modeling, Research, Diagnosis and Treatment” 2017 Open J Anal Bioanal Chem 1 1 014 020 Heidari A Combination of DNA/RNA Ligands and Linear/Non–Linear Visible–Synchrotron Radiation–Driven N–Doped Ordered Mesoporous Cadmium Oxide (CdO) Nanoparticles Photocatalysts Channels Resulted in an Interesting Synergistic Effect Enhancing Catalytic Anti–Cancer Activity” 2017 Enz Eng 6 1 Heidari A Modern Approaches in Designing Ferritin, Ferritin Light Chain, Transferrin, Beta–2 Transferrin and Bacterioferritin–Based Anti–Cancer Nano Drugs Encapsulating Nanosphere as DNA–Binding Proteins from Starved Cells (DPS)”, Mod Appro Drug Des 2017 1 1 000504 Heidari A Potency of Human Interferon β–1a and Human Interferon β–1b in Enzymotherapy, Immunotherapy, Chemotherapy, Radiotherapy, Hormone Therapy and Targeted Therapy of Encephalomyelitis Disseminate/Multiple Sclerosis (MS) 2017 and Hepatitis A, B, C, D, E, F and G Virus Enter and Targets Liver Cells”, J Proteomics Enzymol 6 1 Heidari A Transport Therapeutic Active Targeting of Human Brain Tumors Enable Anti–Cancer Nanodrugs Delivery across the Blood–Brain Barrier (BBB) to Treat Brain Diseases Using Nanoparticles and Nanocarriers under Synchrotron Radiation” 2017 J Pharm Pharmaceutics 4 2 1 5 Heidari A Brown C Combinatorial Therapeutic Approaches to DNA/RNA and Benzylpenicillin (Penicillin G), Fluoxetine Hydrochloride (Prozac and Sarafem), Propofol (Diprivan), Acetylsalicylic Acid (ASA) (Aspirin), Naproxen Sodium (Aleve and Naprosyn) and Dextromethamphetamine Nanocapsules with Surface Conjugated DNA/RNA to Targeted Nano Drugs for Enhanced Anti–Cancer Efficacy and Targeted Cancer Therapy Using Nano Drugs Delivery Systems” 2017 Ann Adv Chem 1 2 061 069 Heidari A High–Resolution Simulations of Human Brain Cancer Translational Nano Drugs Delivery Treatment Process under Synchrotron Radiation” 2017 J Transl Res 1 1 1 3 Heidari A Investigation of Anti–Cancer Nano Drugs’ Effects’ Trend on Human Pancreas Cancer Cells and Tissues Prevention 2017 Diagnosis and Treatment Process under Synchrotron and X–Ray Radiations with the Passage of Time Using Mathematica”, Current Trends Anal Bioanal Chem 1 1 36 41 Heidari A Pros and Cons Controversy on Molecular Imaging and Dynamics of Double–Standard DNA/RNA of Human Preserving Stem Cells–Binding Nano Molecules with Androgens/Anabolic Steroids (AAS) or Testosterone Derivatives through Tracking of Helium–4 Nucleus (Alpha Particle) Using Synchrotron Radiation” 2017 Arch Biotechnol Biomed 1 1 067 0100 Heidari A Visualizing Metabolic Changes in Probing Human Cancer Cells and Tissues Metabolism Using Vivo 2017 1H or Proton NMR, 13C NMR, 15N NMR and 31P NMR Spectroscopy and Self–Organizing Maps under Synchrotron Radiation”, SOJ Mater Sci Eng 5 2 Heidari A Cavity Ring–Down Spectroscopy (CRDS), Circular Dichroism Spectroscopy, Cold Vapour Atomic Fluorescence Spectroscopy and Correlation Spectroscopy Comparative 2017 Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Enliven: Challenges Cancer Detect Ther 4 2 001 Heidari A Laser Spectroscopy, Laser–Induced Breakdown Spectroscopy and Laser–Induced Plasma Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2017 Int J Hepatol Gastroenterol 3 4 079 084 Heidari A Time–Resolved Spectroscopy and Time–Stretch Spectroscopy Comparative Study on 2017 Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Enliven: Pharmacovigilance and Drug Safety 4 2 001 Heidari A Overview of the Role of Vitamins in Reducing Negative Effect of Decapeptyl (Triptorelin Acetate or Pamoate Salts) 2017 Open J Anal Bioanal Chem on Prostate Cancer Cells and Tissues in Prostate Cancer Treatment Process through Transformation of Malignant Prostate Tumors into Benign Prostate Tumors under Synchrotron Radiation” 1 1 021 026 Heidari A Electron Phenomenological Spectroscopy, Electron Paramagnetic Resonance (EPR) Spectroscopy and Electron Spin Resonance (ESR) Spectroscopy Comparative 2017 J Anal Pharm Chem Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 4 3 1091 Austin Heidari A Therapeutic Nanomedicine Different High–Resolution Experimental Images and Computational Simulations for Human Brain Cancer Cells and Tissues Using Nanocarriers Deliver DNA/RNA to Brain Tumors under Synchrotron Radiation with the Passage of Time Using Mathematica and MATLAB” 2017 Madridge J Nano Tech. Sci 2 2 77 83 Heidari A A Consensus and Prospective Study on Restoring Cadmium Oxide (CdO) Nanoparticles Sensitivity in Recurrent Ovarian Cancer by Extending the Cadmium Oxide (CdO) Nanoparticles–Free Interval Using Synchrotron Radiation Therapy as Antibody–Drug Conjugate for the Treatment of Limited–Stage Small Cell Diverse Epithelial Cancers” 2017 Cancer Clin Res Rep 1 001 Heidari A A Novel and Modern Experimental Imaging and Spectroscopy Comparative 2017 Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under White Synchrotron Radiation”, Cancer Sci Res Open Access 4 2 Heidari A Different High–Resolution Simulations of Medical, Medicinal, Clinical, Pharmaceutical and Therapeutics Oncology of Human Breast Cancer Translational Nano Drugs Delivery Treatment Process under Synchrotron and X–Ray Radiations” 2017 J Oral Cancer Res 1 1 12 17 Heidari A Vibrational Decihertz (dHz), Centihertz (cHz), Millihertz (mHz), Microhertz (μHz), Nanohertz (nHz), Picohertz (pHz), Femtohertz (fHz), Attohertz (aHz), Zeptohertz (zHz) and Yoctohertz (yHz) Imaging and Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 2017 International Journal of Biomedicine 7 4 335 340 Heidari A Force Spectroscopy and Fluorescence Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2017 EC Cancer 2 5 239 246 Heidari A Photoacoustic Spectroscopy, Photoemission Spectroscopy and Photothermal Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2017 BAOJ Cancer Res Ther 3 045 052 Heidari A J–Spectroscopy, Exchange Spectroscopy (EXSY), Nucle¬ar Overhauser Effect Spectroscopy (NOESY) and Total Correlation Spectroscopy (TOCSY) 2017 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, EMS Eng Sci J 1 2 006 013 Heidari A Neutron Spin Echo Spectroscopy and Spin Noise Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2017 Int J Biopharm Sci 1 103 107 Heidari A Vibrational Decahertz (daHz), Hectohertz (hHz), Kilohertz (kHz), Megahertz (MHz), Gigahertz (GHz), Terahertz (THz), Petahertz (PHz), Exahertz (EHz), Zettahertz (ZHz) and Yottahertz (YHz) Imaging and Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 2017 Madridge J Anal Sci Instrum 2 1 41 46 Heidari A Two–Dimensional Infrared Correlation Spectroscopy, Linear Two–Dimensional Infrared Spectroscopy and Non–Linear Two–Dimensional Infrared Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time” 2018 J Mater Sci Nanotechnol 6 1 101 Heidari A Fourier Transform Infrared (FTIR) Spectroscopy, Near–Infrared Spectroscopy (NIRS) and Mid–Infrared Spectroscopy (MIRS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time” 2018 Int J Nanotechnol Nanomed 3 1 6 Heidari A Infrared Photo Dissociation Spectroscopy and Infrared Correlation Table Spectroscopy Comparative 2018 Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time”, Austin Pharmacol Pharm 3 1 1011 Heidari A Novel and Transcendental Prevention, Diagnosis and Treatment Strategies for Investigation of Interaction among Human Blood Cancer Cells, Tissues, Tumors and Metastases with Synchrotron Radiation under Anti–Cancer Nano Drugs Delivery Efficacy Using MATLAB Modeling and Simulation” 2017 Madridge J Nov Drug Res 1 1 18 24 Heidari A Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2018 Open Access J Trans Med Res 2 1 00026 00032 Gobato M R R Gobato R Heidari A Planting of Jaboticaba Trees for Landscape Repair of Degraded Area” 2018 Landscape Architecture and Regional Planning 3 1 9 Heidari A Fluorescence Spectroscopy, Phosphorescence Spectroscopy and Luminescence Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time” 2018 SM J Clin. Med. Imaging 4 1 1018 Heidari A Nuclear Inelastic Scattering Spectroscopy (NISS) and Nuclear Inelastic Absorption Spectroscopy (NIAS) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 2018 Int J Pharm Sci 2 1 1 14 Heidari A X–Ray Diffraction (XRD), Powder X–Ray Diffraction (PXRD) and Energy–Dispersive X–Ray Diffraction (EDXRD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 2018 J Oncol Res; 2 1 1 14 Heidari A Correlation Two–Dimensional Nuclear Magnetic Reso¬nance (NMR) 2018 (2D–NMR) (COSY) Imaging and Spectrosco¬py Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, EMS Can Sci 1 Heidari A Thermal Spectroscopy, Photothermal Spectroscopy, Thermal Microspectroscopy, Photothermal Microspectroscopy, Thermal Macrospectroscopy and Photothermal Macrospectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2018 SM J Biometrics Biostat 3 1 1024 Heidari A A Modern and Comprehensive Experimental Biospectroscopic Comparative Study on Human Common Cancers’ Cells, Tissues and Tumors before and after Synchrotron Radiation Therapy” 2018 Open Acc J Oncol Med 1 1 Heidari A Heteronuclear Correlation Experiments such as Heteronuclear Single–Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple–Quantum Correlation Spectroscopy (HMQC) and Heteronuclear Multiple–Bond Correlation Spectroscopy (HMBC) 2018 Comparative Study on Malignant and Benign Human Endocrinology and Thyroid Cancer Cells and Tissues under Synchrotron Radiation”, J Endocrinol Thyroid Res 3 1 555603 Heidari A Nuclear Resonance Vibrational Spectroscopy (NRVS), Nuclear Inelastic Scattering Spectroscopy (NISS), Nuclear Inelastic Absorption Spectroscopy (NIAS) and Nuclear Resonant Inelastic X–Ray Scattering Spectroscopy (NRIXSS) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Int J Bioorg Chem Mol Biol 6 1 Heidari A A Novel and Modern Experimental Approach to Vibrational Circular Dichroism Spectroscopy and Video Spectroscopy Comparative 2018 Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under White and Monochromatic Synchrotron Radiation”, Glob J Endocrinol Metab 1 3 Heidari A Pros and Cons Controversy on Heteronuclear Correlation Experiments such as Heteronuclear Single–Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple–Quantum Correlation Spectroscopy (HMQC) and Heteronuclear Multiple–Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 2018 EMS Pharma J 1 1 002 008 Heidari A A Modern Comparative and Comprehensive Experimental Biospectroscopic Study on Different Types of Infrared Spectroscopy of Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2018 J Analyt Molecul Tech 3 1 Heidari A Investigation of Cancer Types Using Synchrotron Technology for Proton Beam Therapy: An Experimental Biospectroscopic Comparative Study” 2018 European Modern Studies Journal 2 13 29 Heidari A Saturated Spectroscopy and Unsaturated Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2018 Imaging J Clin Medical Sci 5 1 001 007 Heidari A Small–Angle Neutron Scattering (SANS) and Wide–Angle X–Ray Diffraction (WAXD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 2018 Int J Bioorg Chem Mol Biol 6 2 Heidari A Investigation of Bladder Cancer, Breast Cancer, Colorectal Cancer, Endometrial Cancer, Kidney Cancer, Leukemia, Liver, Lung Cancer, Melanoma, Non–Hodgkin Lymphoma, Pancreatic Cancer, Prostate Cancer, Thyroid Cancer and Non–Melanoma Skin Cancer Using Synchrotron Technology for Proton Beam Therapy: An Experimental Biospectroscopic Comparative Study” 2018 Ther Res Skin Dis 1 1 Heidari A Attenuated Total Reflectance Fourier Transform Infrared (ATR–FTIR) Spectroscopy, Micro–Attenuated Total Reflectance Fourier Transform Infrared (Micro–ATR–FTIR) Spectroscopy and Macro–Attenuated Total Reflectance Fourier Transform Infrared (Macro–ATR–FTIR) Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time” 2018 International Journal of Chemistry Papers 2 1 1 12 Heidari A Mössbauer Spectroscopy, Mössbauer Emission Spectroscopy and 57Fe Mössbauer Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 2018 Acta Scientific Cancer Biology 2 17 20 Heidari A Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under 2018 Synchrotron Radiation with the Passage of Time”, Organic & Medicinal Chem IJ 6 1 555676 Heidari A Correlation Spectroscopy, Exclusive Correlation Spectroscopy and Total Correlation Spectroscopy Comparative Study on Malignant and Benign Human AIDS–Related Cancers Cells and Tissues with the Passage of Time under Synchrotron Radiation” 2018 Int J Bioanal Biomed 2 1 001 007 Heidari A Biomedical Instrumentation and Applications of Biospectroscopic Methods and 2018 Techniques in Malignant and Benign Human Cancer Cells and Tissues Studies under Synchrotron Radiation and Anti–Cancer Nano Drugs Delivery”, Am J Nanotechnol Nanomed 1 1 001 009 Heidari A Vivo 1H or Proton NMR 2018 13C NMR, 15N NMR and 31P NMR Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Ann Biomet Biostat 1 1 1001 Heidari A Grazing–Incidence Small–Angle Neutron Scattering (GISANS) and Grazing–Incidence X–Ray Diffraction (GIXD) Comparative Study on Malignant and Benign Human Cancer Cells, Tissues and Tumors under Synchrotron Radiation”, Ann Cardiovasc Surg 2018 1 2 1006 Heidari A Adsorption Isotherms and Kinetics of Multi–Walled Carbon Nanotubes (MWCNTs), Boron Nitride Nanotubes (BNNTs), Amorphous Boron Nitride Nanotubes (a–BNNTs) and Hexagonal Boron Nitride Nanotubes (h–BNNTs) for Eliminating Carcinoma 2018 Sarcoma, Lymphoma, Leukemia, Germ Heidari A Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Incredible Natural–Abundance Double–Quantum Transfer Experiment (INADEQUATE), Heteronuclear Single–Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple–Bond Correlation Spectroscopy (HMBC), Nuclear Overhauser Effect Spectroscopy (NOESY) and Rotating Frame Nuclear Overhauser Effect Spectroscopy (ROESY) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Acta Scientific Pharmaceutical Sciences 2 30 35 Heidari A Small–Angle X–Ray Scattering (SAXS), Ultra–Small Angle X–Ray Scattering (USAXS), Fluctuation X–Ray Scattering (FXS), Wide–Angle X–Ray Scattering (WAXS), Grazing–Incidence Small–Angle X–Ray Scattering (GISAXS), Grazing–Incidence Wide–Angle X–Ray Scattering (GIWAXS), Small–Angle Neutron Scattering (SANS), Grazing–Incidence Small–Angle Neutron Scattering 2018 (GISANS), X–Ray Diffraction (XRD), Powder X–Ray Diffraction (PXRD), Wide–Angle X–Ray Diffraction (WAXD), Grazing–Incidence X–Ray Diffraction (GIXD) and Energy–Dispersive X–Ray Diffraction (EDXRD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Oncol Res Rev, Volume 1 1 1 10 Heidari A Pump–Probe Spectroscopy and Transient Grating Spectroscopy Comparative Study on 2018 Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Adv Material Sci Engg 2 Pages Heidari A Grazing–Incidence Small–Angle X–Ray Scattering (GISAXS) and Grazing–Incidence Wide–Angle X–Ray Scattering (GIWAXS) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Insights Pharmacol Pharm Sci 1 1 Heidari A Acoustic Spectroscopy, Acoustic Resonance Spectroscopy and Auger Spectroscopy Comparative Study on Anti–Cancer Nano Drugs Delivery 2018 in Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Nanosci Technol 5 1 Heidari A “Niobium Technetium Ruthenium Rhodium Hafnium Rhenium Osmium and Iridium Ions Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations” 2018 Nanomed Nanotechnol 3 2 000138 Heidari A Homonuclear Correlation Experiments such as Homonuclear Single–Quantum Correlation Spectroscopy (HSQC), Homonuclear Multiple–Quantum Correlation Spectroscopy (HMQC) and Homonuclear Multiple–Bond Correlation Spectroscopy (HMBC) 2018 J Proteomics Bioinform & Genomics Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 5 1 1024 Austin Heidari A Atomic Force Microscopy Based Infrared (AFM–IR) Spectroscopy and Nuclear Resonance Vibrational Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time” 2018 J Appl Biotechnol Bioeng 5 3 142 148 Heidari A Time–Dependent Vibrational Spectral Analysis of Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation” 2018 J Cancer Oncol 2 2 000124 Heidari A Palauamine and Olympiadane Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells 2018 Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations”, Arc Org Inorg Chem Sci 3 1 Gobato R Heidari A Infrared Spectrum and Sites of Action of Sanguinarine by Molecular Mechanics and ab initio Methods” 2018 International Journal of Atmospheric and Oceanic Sciences 2 1 9 Heidari A Angelic Acid, Diabolic Acids, Draculin and Miraculin Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment Under Synchrotron and Synchrocyclotron Radiations” 2018 Med & Analy Chem Int J 2 1 000111 Heidari A Gamma Linolenic Methyl Ester, 5–Heptadeca–5,8,11–Trienyl 1,3,4–Oxadiazole–2–Thiol, Sulphoquinovosyl Diacyl Glycerol, Ruscogenin, Nocturnoside B, Protodioscine B, Parquisoside–B, Leiocarposide, Narangenin, 7–Methoxy Hespertin, Lupeol, Rosemariquinone, Rosmanol and Rosemadiol Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations” 2018 Int J Pharma Anal Acta 2 1 007 014 Heidari A Fourier Transform Infrared (FTIR) Spectroscopy, Attenuated Total Reflectance Fourier Transform Infrared (ATR–FTIR) Spectroscopy, Micro–Attenuated Total Reflectance Fourier Transform Infrared (Micro–ATR–FTIR) Spectroscopy, Macro–Attenuated Total Reflectance Fourier Transform Infrared (Macro–ATR–FTIR) Spectroscopy, Two–Dimensional Infrared Correlation Spectroscopy, Linear Two–Dimensional Infrared Spectroscopy, Non–Linear Two–Dimensional Infrared Spectroscopy, Atomic Force Microscopy Based Infrared (AFM–IR) Spectroscopy, Infrared Photodissociation Spectroscopy, Infrared Correlation Table Spectroscopy, Near–Infrared Spectroscopy (NIRS), Mid–Infrared Spectroscopy (MIRS), Nuclear Resonance Vibrational Spectroscopy, Thermal Infrared Spectroscopy and Photothermal Infrared Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time”, Glob Imaging Insights 2018 3 2 1 14 Heidari A Heteronuclear Single–Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple–Bond Correlation Spectroscopy (HMBC) 2018 Comparative Study on Malignant and Benign Human Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations”, Chronicle of Medicine and Surgery 2 144 156 Heidari A Tetrakis [3, 5–bis (Trifluoromethyl) Phenyl] Borate (BARF)–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) 2018 Nano Molecules”, Medical Research and Clinical Case Reports 2 113 126 Heidari A Sydnone, Münchnone, Montréalone, Mogone, Montelukast, Quebecol and Palau’amine–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) 2018 Nano Molecules”, Sur Cas Stud Op Acc J 1 3 Heidari A Fornacite, Orotic Acid, Rhamnetin, Sodium Ethyl Xanthate (SEX) and Spermine (Spermidine or Polyamine) Nanomolecules Incorporation into the Nanopolymeric Matrix (NPM)” 2018 International Journal of Biochemistry and Biomolecules 4 1 19 Heidari A Gobato R Putrescine, Cadaverine, Spermine and Spermidine–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules” 2018 Parana Journal of Science and Education (PJSE)–v.4, n.5, (1–14) Heidari A Cadaverine (1,5–Pentanediamine or Pentamethylenediamine), Diethyl Azodicarboxylate (DEAD or DEADCAT) and Putrescine (Tetramethylenediamine) Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells 2018 Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations”, Hiv and Sexual Health Open Access Open Journal 1 1 4 11 Heidari A Improving the Performance of Nano–Endofullerenes in Polyaniline Nanostructure–Based Biosensors by Covering Californium Colloidal Nanoparticles with Multi–Walled Carbon Nanotubes” 2018 Journal of Advances in Nanomaterials 3 1 28 Gobato R Heidari A Molecular Mechanics and Quantum Chemical Study on Sites of Action of Sanguinarine Using Vibrational Spectroscopy Based on Molecular Mechanics and Quantum Chemical Calculations” 2018 Malaysian Journal of Chemistry 20 1 1 23 Heidari A Vibrational Biospectroscopic Studies on Anti–cancer Nanopharmaceuticals (Part I)” 2018 Malaysian Journal of Chemistry 20 1 33 73 Heidari A Vibrational Biospectroscopic Studies on Anti–cancer Nanopharmaceuticals (Part II)” 2018 Malaysian Journal of Chemistry 20 1 74 117 Heidari A Uranocene (U(C8H8)2) and Bis(Cyclooctatetraene)Iron (Fe(C8H8)2 or Fe(COT)2)–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) 2018 Nano Molecules”, Chemistry Reports 1 1 16 Heidari A Biomedical Systematic and Emerging Technological Study on Human Malignant and Benign Cancer Cells and Tissues Biospectroscopic Analysis under Synchrotron Radiation”, Glob Imaging Insights 2018 3 3 Heidari A Deep–Level Transient Spectroscopy and X–Ray Photoelectron Spectroscopy (XPS) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Res Dev Material Sci 7 2 Heidari A C70–Carboxyfullerenes Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations”, Glob Imaging Insights 2018 3 3 Heidari A The Effect of Temperature on Cadmium Oxide (CdO) Nanoparticles Produced by Synchrotron Radiation in the Human Cancer Cells, Tissues and Tumors” 2018 International Journal of Advanced Chemistry 6 2 140 156 Heidari A A Clinical and Molecular Pathology Investigation of Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Heteronuclear Single–Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple–Bond Correlation Spectroscopy (HMBC) Comparative Study on Malignant and Benign Human Cancer Cells, Tissues and Tumors under Synchrotron and Synchrocyclotron Radiations Using Cyclotron versus Synchrotron, Synchrocyclotron and the Large Hadron Collider (LHC) for Delivery of Proton and Helium Ion (Charged Particle) Beams for Oncology Radiotherapy” 2018 European Journal of Advances in Engineering and Technology 5 7 414 426 Heidari A Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations” 2018 J Oncol Res; 1 1 1 20 Heidari A Use of Molecular Enzymes in the Treatment of Chronic Disorders” 2018 Canc Oncol Open Access J 1 1 12 15 Heidari A Vibrational Biospectroscopic Study and Chemical Structure Analysis of Unsaturated Polyamides Nanoparticles as Anti–Cancer Polymeric Nanomedicines Using Synchrotron Radiation” 2018 International Journal of Advanced Chemistry 6 2 167 189 Heidari A “Adamantane Irene Naftazone and Pyridine–Enhanced Precatalyst Preparation Stabilization and Initiation (PEPPSI) 2018 Nano Molecules”, Madridge J Nov Drug Res 2 1 61 67 Heidari A Heteronuclear Single–Quantum Correlation Spectroscopy (HSQC) and Heteronuclear Multiple–Bond Correlation Spectroscopy (HMBC) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Madridge J Nov Drug Res 2 1 68 74 Heidari A Gobato R Novel “A Approach to Reduce Toxicities and to Improve Bioavailabilities of DNA/RNA of Human Cancer Cells–Containing Cocaine (Coke), Lysergide (Lysergic Acid Diethyl Amide or LSD), Δ–Tetrahydrocannabinol (THC) [(–)–trans–Δ–Tetrahydrocannabinol], Theobromine (Xantheose), Caffeine, Aspartame (APM) (NutraSweet) 2018 and Zidovudine (ZDV) [Azidothymidine (AZT)] as Anti–Cancer Nano Drugs by Coassembly of Dual Anti–Cancer Nano Drugs to Inhibit DNA/RNA of Human Cancer Cells Drug Resistance”, Parana Journal of Science and Education 4 1 17 Heidari A Gobato R Ultraviolet Photoelectron Spectroscopy (UPS) and Ultraviolet–Visible (UV–Vis) Spectroscopy Comparative 2018 Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Parana Journal of Science and Education 4 18 33 Gobato R Heidari A Mitra A The Creation of C13H20BeLi2SeSi. The Proposal of a Bio–Inorganic Molecule, Using Ab Initio Methods for the Genesis of a Nano Membrane” 2018 Arc Org Inorg Chem Sci 3 4 Gobato R Heidari A Mitra A Using the Quantum Chemistry for Genesis of a Nano Biomembrane with a Combination of the Elements 2018 Be, Li, Se, Si, C Gobato R Heidari A Using the Quantum Chemistry for Genesis of a Nano Biomembrane with a 2018 Combination of the Elements Be, Li, Se, Si, C and H”, J Nanomed 7 4 241 252 Heidari A Bastadins and Bastaranes–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules”, Glob Imaging Insights 2018 3 4 Heidari A Fucitol, Pterodactyladiene, DEAD or DEADCAT (DiEthyl AzoDiCArboxylaTe), Skatole, the NanoPutians, Thebacon, Pikachurin, Tie Fighter, Spermidine and Mirasorvone Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations”, Glob Imaging Insights 2018 3 4 Dadvar E Heidari A A Review on Separation Techniques of Graphene Oxide (GO)/Base on Hybrid Polymer Membranes for Eradication of Dyes and Oil Compounds: Recent Progress in Graphene Oxide (GO)/Base on Polymer Membranes–Related Nanotechnologies”, Clin Med Rev Case Rep 5: 228 2018 Heidari A Gobato R First–Time Simulation of Deoxyuridine Monophosphate (dUMP) (Deoxyuridylic Acid or Deoxyuridylate) and Vomitoxin (Deoxynivalenol (DON)) ((3α,7α)–3,7,15–Trihydroxy–12,13–Epoxytrichothec–9–En–8–One)–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations” 2018 Parana Journal of Science and Education 4 46 67 Heidari A “Buckminsterfullerene Dickite and Josiphos Ligands Nano Molecules Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Hematology and Thromboembolic Diseases Prevention, Diagnosis and Treatment under Synchrotron and Synchrocyclotron Radiations”, Glob Imaging Insights 2018 3 4 Heidari A Fluctuation X–Ray Scattering (FXS) and Wide–Angle X–Ray Scattering (WAXS) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Glob Imaging Insights, Volume 3 4 Heidari A A Novel Approach to Correlation Spectroscopy (COSY), Exclusive Correlation Spectroscopy (ECOSY), Total Correlation Spectroscopy (TOCSY), Incredible Natural–Abundance Double–Quantum Transfer Experiment (INADEQUATE), Heteronuclear Single–Quantum Correlation Spectroscopy (HSQC), Heteronuclear Multiple–Bond Correlation Spectroscopy (HMBC), Nuclear Overhauser Effect Spectroscopy (NOESY) and Rotating Frame Nuclear Overhauser Effect Spectroscopy (ROESY) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Glob Imaging Insights 2018 3 5 Heidari A Terphenyl–Based Reversible Receptor with Rhodamine, Rhodamine–Based Molecular Probe, Rhodamine–Based Using the Spirolactam Ring Opening, Rhodamine B with Ferrocene Substituent, Calix[4]Arene–Based Receptor, Thioether + Aniline–Derived Ligand Framework Linked to a Fluorescein Platform 2018 Mercuryfluor–1 (Flourescent Probe), N,N’–Dibenzyl–1,4,10,13–Tetraraoxa–7,16–Diazacyclooctadecane and Terphenyl–Based Reversible Receptor with Pyrene and Quinoline as the Fluorophores–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules”, Glob Imaging Insights, Volume 3 5 Heidari A Small–Angle X–Ray Scattering (SAXS), Ultra–Small Angle X–Ray Scattering (USAXS), Fluctuation X–Ray Scattering (FXS), Wide–Angle X–Ray Scattering (WAXS), Grazing–Incidence Small–Angle X–Ray Scattering (GISAXS), Grazing–Incidence Wide–Angle X–Ray Scattering (GIWAXS), Small–Angle Neutron Scattering (SANS), Grazing–Incidence Small–Angle Neutron Scattering 2018 (GISANS), X–Ray Diffraction (XRD), Powder X–Ray Diffraction (PXRD), Wide–Angle X–Ray Diffraction (WAXD), Grazing– Incidence X–Ray Diffraction (GIXD) and Energy–Dispersive X–Ray Diffraction (EDXRD) Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Glob Imaging Insights, Volume 3 5 1 10 Heidari A Nuclear Resonant Inelastic X–Ray Scattering Spectroscopy (NRIXSS) and Nuclear Resonance Vibrational Spectroscopy (NRVS) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Glob Imaging Insights, Volume 3 5 Heidari A Small–Angle X–Ray Scattering (SAXS) and Ultra–Small Angle X–Ray Scattering (USAXS) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Glob Imaging Insights, Volume 3 5 Heidari A Curious Chloride (CmCl3) and Titanic Chloride (TiCl4)–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules for Cancer Treatment and Cellular Therapeutics” 2018 J. Cancer Research and Therapeutic Interventions 1 01 10 Gobato R Gobato M R R Heidari A Mitra A Spectroscopy and Dipole Moment of the Molecule C13H20BeLi2SeSi via Quantum Chemistry Using Ab Initio 2018 Hartree–Fock Method in the Base Set CC–pVTZ and 6–311G**(3df, 3pd)”, Arc Org Inorg Chem Sci 3 5 402 409 Heidari A C60 and C70–Encapsulating Carbon Nanotubes Incorporation into the Nano Polymeric Matrix (NPM) by Immersion of the Nano Polymeric Modified Electrode (NPME) as Molecular Enzymes and Drug Targets for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron and Synchrocyclotron Radiations”, Integr Mol Med 2018 5 3 Heidari A Two–Dimensional (2D) 1H or Proton NMR 2018 13C NMR, 15N NMR and 31P NMR Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time”, Glob Imaging Insights, Volume 3 6 Heidari A FT–Raman Spectroscopy, Coherent Anti–Stokes Raman Spectroscopy (CARS) and Raman Optical Activity Spectroscopy (ROAS) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues with the Passage of Time under Synchrotron Radiation”, Glob Imaging Insights, Volume 3 6 Heidari A A Modern and Comprehensive Investigation of Inelastic Electron Tunneling Spectroscopy (IETS) and Scanning Tunneling Spectroscopy on Malignant and Benign Human Cancer Cells, Tissues and Tumors through Optimizing Synchrotron Microbeam Radiotherapy for Human Cancer Treatments and Diagnostics: An Experimental Biospectroscopic Comparative Study”, Glob Imaging Insights 2018 3 6 Heidari A A Hypertension Approach to Thermal Infrared Spectroscopy and Photothermal Infrared Spectroscopy Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation with the Passage of Time”, Glob Imaging Insights 2018 3 6 Heidari A Incredible Natural–Abundance Double–Quantum Transfer Experiment (INADEQUATE), Nuclear Overhauser Effect Spectroscopy (NOESY) and Rotating Frame Nuclear Overhauser Effect Spectroscopy (ROESY) 2018 Comparative Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Glob Imaging Insights, Volume 3 6 Heidari A 2–Amino–9–((1S, 3R, 4R)–4–Hydroxy–3–(Hydroxymethyl)–2–Methylenecyclopentyl)–1H–Purin–6(9H)–One, 2–Amino–9–((1R, 3R, 4R)–4–Hydroxy–3–(Hydroxymethyl)–2–Methylenecyclopentyl)–1H–Purin–6(9H)–One, 2–Amino–9–((1R, 3R, 4S)–4–Hydroxy–3–(Hydroxymethyl)–2–Methylenecyclopentyl)–1H–Purin–6(9H)–One and 2–Amino–9–((1S, 3R, 4S)–4–Hydroxy–3–(Hydroxymethyl)–2–Methylenecyclopentyl)–1H–Purin–6(9H)–One–Enhanced Precatalyst Preparation Stabilization and Initiation Nano Molecules”, Glob Imaging Insights 2018 3 6 Gobato R Gobato M R R Heidari A Mitra A Spectroscopy and Dipole Moment of the Molecule C13H20BeLi2SeSi via Quantum Chemistry Using Ab Initio, Hartree–Fock Method in the Base Set CC–pVTZ and 6–311G**(3df, 3pd)” 2018 American Journal of Quantum Chemistry and Molecular Spectroscopy 2 9 17 Heidari A Production of Electrochemiluminescence (ECL) Biosensor Using Os–Pd/HfC Nanocomposites for Detecting and Tracking of Human Gastroenterological Cancer Cells, Tissues and Tumors” 2018 Int J Med Nano Res 5 022 034 Heidari A Enhancing the Raman Scattering for Diagnosis and Treatment of Human Cancer Cells, Tissues and Tumors Using Cadmium Oxide (CdO) 2018 Nanoparticles”, J Toxicol Risk Assess 4 012 025 Heidari A Human Malignant and Benign Human Cancer Cells and Tissues Biospectroscopic Analysis under Synchrotron Radiation Using Anti–Cancer Nano Drugs Delivery”, Integr Mol Med 2018 5 5 1 13 Heidari A Analogous Nano Compounds of the Form M(C8H8)2 Exist for M = (Nd 2018 Yb)–Enhanced Precatalyst Preparation Stabilization and Initiation (EPPSI) Nano Molecules”, Integr Mol Med, Volume 5 5 Tb, Pu, Pa, Np, Th, and Heidari A Hadron Spectroscopy, Baryon Spectroscopy and Meson Spectroscopy Comparative 2018 Study on Malignant and Benign Human Cancer Cells and Tissues under Synchrotron Radiation”, Integr Mol Med, Volume 5 5 Gobato R Gobato M R R Heidari A Raman Spectroscopy Study of the Nano Molecule C13H20BeLi2SeSi Using ab initio and 2019 Hartree–Fock Methods in the Basis Set CC–pVTZ and 6–311G** (3df, 3pd)”, International Journal of Advanced Engineering and Science 7 14 35 Heidari A Gobato R Evaluating the Effect of Anti–Cancer Nano Drugs Dosage and Reduced Leukemia and Polycythemia Vera Levels 2019 on Trend of the Human Blood and Bone Marrow Cancers under Synchrotron Radiation”, Trends in Res, Volume 2 1 Heidari A Gobato R Assessing the Variety of Synchrotron 2019 Synchrocyclotron and LASER Radiations and Their Roles and Applications in Human Cancer Cells, Tissues and Tumors Diagnosis and Treatment”, Trends in Res, Volume 2 1 Heidari A Gobato R Pros and Cons Controversy on Malignant Human Cancer Cells, Tissues and Tumors Transformation Process to Benign Human Cancer Cells, Tissues and Tumors” 2019 Trends in Res, Volume 2 1 Heidari A Gobato R Three–Dimensional (3D) Simulations of Human Cancer Cells, Tissues and Tumors for Using in Human Cancer Cells, Tissues and Tumors Diagnosis and Treatment as a Powerful Tool 2019 in Human Cancer Cells, Tissues and Tumors Research and Anti–Cancer Nano Drugs Sensitivity and Delivery Area Discovery and Evaluation”, Trends in Res, Volume 2 1 Heidari A Gobato R Investigation of Energy Production by Synchrotron, Synchrocyclotron and LASER Radiations in Human Cancer Cells, Tissues and Tumors and Evaluation of Their Effective on Human Cancer Cells, Tissues and Tumors Treatment Trend”, Trends in Res 2019 2 1 Heidari A Gobato R High–Resolution Mapping of DNA/RNA Hypermethylation and Hypomethylation 2019 Process in Human Cancer Cells, Tissues and Tumors under Synchrotron Radiation”, Trends in Res, Volume 2 2 Heidari A A Novel and Comprehensive Study on Manufacturing and Fabrication Nanoparticles Methods and Techniques for Processing Cadmium Oxide (CdO) Nanoparticles Colloidal Solution”, Glob Imaging Insights 2019 4 1 Heidari A A Combined Experimental and Computational Study on the Catalytic Effect of Aluminum Nitride Nanocrystal (AlN) on the Polymerization of Benzene, Naphthalene, Anthracene, Phenanthrene, Chrysene and Tetracene”, Glob Imaging Insights 2019 4 1 Heidari A Novel Experimental and Three–Dimensional (3D) Multiphysics Computational Framework of Michaelis–Menten Kinetics for Catalyst Processes Innovation, Characterization and Carrier Applications”, Glob Imaging Insights 2019 4 1 Heidari A The Hydrolysis Constants of Copper (I) (Cu+) and Copper (II) (Cu2+) in Aqueous Solution as a Function of pH Using a Combination of pH 2019 Measurement and Biospectroscopic Methods and Techniques”, Glob Imaging Insights 4 1 Heidari A Vibrational Biospectroscopic Study of Ginormous Virus–Sized Macromolecule and Polypeptide Macromolecule as Mega Macromolecules Using Attenuated Total Reflectance–Fourier Transform Infrared (ATR–FTIR) Spectroscopy and Mathematica 11.3”, Glob Imaging Insights 2019 4 1 Heidari A Three–Dimensional (3D) Imaging Spectroscopy of Carcinoma, Sarcoma, Leukemia, Lymphoma, Multiple Myeloma, Melanoma, Brain and Spinal Cord Tumors, Germ Cell Tumors, Neuroendocrine Tumors and Carcinoid Tumors under Synchrotron Radiation”, Glob Imaging Insights 2019 4 1 Gobato R Gobato M R R Heidari A Storm Vortex in the Center of Paraná State on 2017 Sumerianz Journal of Scientific Research 2 24 31 Gobato R Gobato M R R Heidari A Attenuated Total Reflection–Fourier Transform Infrared (ATR–FTIR) Spectroscopy Study of the Nano Molecule C13H20BeLi2SeSi Using ab initio and 2019 Hartree–Fock Methods in the Basis Set RHF/CC–pVTZ and RHF/6–311G** (3df, 3pd): An Experimental Challenge to Chemists”, Chemistry Reports 2 1 26 Heidari A Three–Dimensional (3D) Imaging Spectroscopy of Carcinoma, Sarcoma, Leukemia, Lymphoma, Multiple Myeloma, Melanoma, Brain and Spinal Cord Tumors, Germ Cell Tumors 2019 Neuroendocrine Tumors and Carcinoid Tumors under Synchrocyclotron Radiation”, Res Adv Biomed Sci Technol 1 1 01 17 Gobato R Gobato M R R Heidari A Mitra A New Nano–Molecule Kurumi–C13H20BeLi2SeSi/C13H19BeLi2SeSi, and Raman Spectroscopy Using ab initio 2019 Hartree–Fock Method in the Base Set CC–pVTZ and 6–311G** (3df, 3pd)”, J Anal Pharm Res 8 1 Heidari A Esposito J Caissutti A The Importance of Attenuated Total Reflectance Fourier Transform Infrared (ATR–FTIR) and Raman Bio¬spectroscopy of Single–Walled Carbon Nanotubes (SWCNT) and Multi–Walled Carbon Nanotubes (MWCNT) in Interpreting Infrared and Raman Spectra of Human Cancer Cells, Tissues and Tumors” 2019 Oncogen 2 2 1 21 Heidari A Mechanism of Action and Their Side Effects at a Glance Prevention, Treatment and 2019 Management of Immune System and Human Cancer Nano Chemotherapy”, Nanosci Technol 6 1 Heidari A Esposito J Caissutti A The Quantum Entanglement Dynamics Induced by Non–Linear Interaction between a Moving Nano Molecule and a Two–Mode Field with Two–Photon Transitions Using Reduced Von Neumann Entropy and Jaynes–Cummings Model for Human Cancer Cells, Tissues and Tumors Diagnosis” 2019 Int J Crit Care Emerg Med 5 2 071 084 Heidari A Esposito J Caissutti A Palytoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, J Pharm Drug Res 3 1 150 170 Heidari A Esposito J Caissutti A Aplysiatoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, J Chem Sci Eng 2 2 70 89 Gobato R Gobato M R R Heidari A Mitra A Spectroscopy and Dipole Moment of the Molecule C13H20BeLi2SeSi via Quantum Chemistry Using Ab initio 2018 Hartree–Fock Method in the Base Set CC–pVTZ and 6–311G** (3df, 3pd)”, American Journal of Quantum Chemistry and Molecular Spectroscopy 2 1 9 17 Heidari A Esposito J Caissutti A Cyanotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Br J Med Health Res 6 04 21 60 Heidari A Potential and Theranostics Applications of Novel Anti–Cancer Nano Drugs Delivery Systems in Preparing for Clinical Trials of Synchrotron Microbeam Radiation Therapy (SMRT) and Synchrotron Stereotactic Radiotherapy (SSRT) for Treatment of Human Cancer Cells, Tissues and Tumors Using Image Guided Synchrotron Radiotherapy (IGSR)” 2019 Ann Nanosci Nanotechnol 3 1 1006 1019 Heidari A Esposito J Caissutti A Study of Anti–Cancer Properties of Thin Layers of Cadmium Oxide (CdO) Nanostructure” 2019 Int J Analyt Bioanalyt Methods 1 1 003 022 Heidari A Esposito J Caissutti A Alpha–Conotoxin, Omega–Conotoxin and Mu–Conotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 International Journal of Advanced Chemistry 7 1 52 66 Heidari A Clinical and Medical Pros and Cons of Human Cancer Cells’ Enzymotherapy, Immunotherapy, Chemotherapy, Radiotherapy, Hormone Therapy and Targeted Therapy Process under Synchrotron Radiation: A Case Study on Mechanism of Action and Their Side Effects” 2019 Parana Journal of Science and Education 5 Heidari A The Importance of the Power 2019 in CMOS Inverter Circuit of Synchrotron and Synchrocyclotron Radiations Using 50 (nm) and 100 (nm) Technologies and Reducing the Voltage of Power Supply”, Radiother Oncol Int 1 1 1002 1015 Heidari A Esposito J Caissutti A The Importance of Quantum Hydrodynamics (QHD) Approach to Single–Walled Carbon Nanotubes (SWCNT) and Multi–Walled Carbon Nanotubes (MWCNT) 2019 in Genetic Science”, SCIOL Genet Sci 2 1 113 129 Heidari A Esposito J Caissutti A Anatoxin–a and Anatoxin–a(s) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 Saudi J Biomed Res 4 4 174 194 Gobato R Gobato M R R Heidari A Evidence of Tornado Storm Hit the Counties of Rio Branco do Ivaí and Rosario de Ivaí 2019 Sci Lett 7 1 32 40 Southern Brazil” Jeyaraj M Mahalingam V Indhuleka A Sennu P M S Ho Heidari A Chemical Analysis of Surface Water Quality of River Noyyal Connected Tank 2019 in Tirupur District, Tamil Nadu, India”, Water and Energy International, Volume 62r, Issue 1 63 68 HeidariAEspositoJCaissuttiA 6–Methoxy–8–[[6–Methoxy–8–[[6–Methoxy–2–Methyl–1–(2–Methylpropyl)–3,4– Dihydro–1H–Isoquinolin–7–yl Heidari A Esposito J Caissutti A Shiga Toxin and Shiga–Like Toxin (SLT) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Annal Biostat & Biomed Appli 2 3 Heidari A Esposito J Caissutti A Alpha–Bungarotoxin, Beta–Bungarotoxin and Kappa–Bungarotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Archives of Pharmacology and Pharmaceutical Sciences, ReDelve, Volume 2019, Issue 01 1 24 Heidari A Esposito J Caissutti A Okadaic Acid Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Int J Analyt Bioanalyt Methods 1 1 1 19 Heidari A Investigation of the Processes of Absorption, Distribution, Metabolism and Elimination (ADME) as Vital and Important Factors for Modulating Drug Action and Toxicity” 2019 Open Access J Oncol 2 1 180010 180012 Heidari A Esposito J Caissutti A Pertussis Toxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Chemistry Reports 1 Pages Gobato R Gobato M R R Heidari A Rhodochrosite as Crystal Oscillator” 2019 Am J Biomed Sci & Res 3 2 187 Heidari A Esposito J Caissutti A Tetrodotoxin (TTX) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Journal of New Developments in Chemistry, Volume No: 2, Issue No: 3 Page Numbers Heidari A Esposito J Caissutti A The Importance of Analysis of Vibronic–Mode Coupling Structure in Vibrational Spectra of Supramolecular Aggregates of (CA*M) Cyanuric Acid (CA) and Melamine (M) beyond the Franck–Condon Approximation” 2019 Journal of Clinical and Medical Images 2 2 1 20 Heidari A Esposito J Caissutti A Microcystin–LR Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 Malaysian Journal of Chemistry 21 1 70 95 Heidari A Esposito J Caissutti A Botulinum Toxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Journal of Mechanical Design and Vibration 7 1 15 Heidari A Esposito J Caissutti A Domoic Acid (DA) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis&quot; 2019 Cientific Clinical Oncology Journal 1 03 07 Heidari A Esposito J Caissutti A Surugatoxin (SGTX) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis&quot; 2019 Cientific Clinical Oncology Journal 1 14 18 Heidari A Esposito J Caissutti A Decarbamoylsaxitoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis&quot; 2019 Cientific Clinical Oncology Journal 1 Heidari A Esposito J Caissutti A Gonyautoxin (GTX) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis&quot; 2019 Cientific Clinical Oncology Journal 1 24 28 Heidari A Esposito J Caissutti A Hislrionicotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis&quot; 2019 Cientific Drug Delivery Research 1 01 06 Heidari A Esposito J Caissutti A Dihydrokainic Acid Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Cientific Drug Delivery Research 1 07 12 Heidari A Esposito J Caissutti A 2019 Aflatoxin B1 (AFB1), B2 (AFB2), G1 (AFG1), G2 (AFG2), M1 (AFM1), M2 (AFM2), Q1 (AFQ1) and P1 (AFP1) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Cientific Drug Delivery Research 1 25 32 Heidari A Esposito J Caissutti A Mycotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Cientific Drug Delivery Research 1 13 18 Heidari A Esposito J Caissutti A Bufotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Cientific Drug Delivery Research 1 Heidari A Esposito J Caissutti A Kainic Acid (Kainite) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 Cientific Journal of Neurology 1 02 07 Heidari A Esposito J Caissutti A Nereistoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 Cientific Journal of Neurology 1 Heidari A Esposito J Caissutti A Spider Toxin and Raventoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Parana Journal of Science and Education 5 1 28 Heidari A Esposito J Caissutti A “Ochratoxin A Ochratoxin B Ochratoxin C 2019 Ochratoxin α and Ochratoxin TA Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Cientific Drug Delivery Research 1 03 10 Heidari A Esposito J Caissutti A Brevetoxin A and B Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Cientific Drug Delivery Research 1 11 16 Heidari A Esposito J Caissutti A Lyngbyatoxin–a Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Cientific Drug Delivery Research 1 23 28 Heidari A Esposito J Caissutti A Balraechotoxin (BTX) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 Cientific Journal of Neurology 1 01 05 Heidari A Esposito J Caissutti A Hanatoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 Int. J. Pharm. Sci. Rev. Res 57 1 21 32 Heidari A Esposito J Caissutti A Neurotoxin and Alpha–Neurotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, J Biomed Sci & Res 3 6 550 563 Heidari A Esposito J Caissutti A Antillatoxin (ATX) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure”, American Journal of Optics and Photonics 7 18 27 Gobato R Gobato M R R Heidari A Calculation by UFF Method of Frequencies and Vibrational Temperatures of the Unit Cell of the Rhodochrosite Crystal” 2019 International Journal of Advanced Chemistry 7 2 77 81 Heidari A Esposito J Caissutti A Analysis of Vibronic–Mode Coupling Structure in Vibrational Spectra of Fuzeon as a 36 Amino Acid Peptide for HIV Therapy beyond the Multi–Dimensional Franck–Condon Integrals Approximation” 2019 International Journal of Advanced Chemistry 7 2 82 96 Heidari A Esposito J Caissutti A Debromoaplysiatoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 Applied Chemistry 2 1 17 54 Heidari A Esposito J Caissutti A Enterotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 JRL J Sci Technol 1 1001 1 Gobato R Gobato M R R Heidari A Mitra A Rhodochrosite Optical Indicatrix” 2019 1 3 Peer Res Nest Heidari A Esposito J Caissutti A Anthrax Toxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Research & Reviews: Journal of Computational Biology 8 2 23 51 Heidari A Esposito J Caissutti A Kalkitoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Can J Biomed Res & Tech 2 1 1 21 Heidari A Esposito J Caissutti A Neosaxitoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Clin Case Studie Rep, Volume 2 3 1 14 Heidari A Esposito J Caissutti A 6–Methoxy–8–[[6–Methoxy–8–[[6–Methoxy–2–Methyl–1–(2–Methylpropyl)–3,4–Dihydro–1H–Isoquinolin–7–yl]Oxy]–2–Methyl–1–(2–Methylpropyl)–3,4–Dihydro–1H–Isoquinolin–7–yl]Oxy]–2–Methyl–1–(2–Methylpropyl)–3,4–Dihydro–1H–Isoquinolin–7–ol Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Clin Case Studie Rep, Volume 2 3 1 14 Heidari A Comparison of Synchrotron Radiation and Synchrocyclotron Radiation Performance in Monitoring of Human Cancer Cells, Tissues and Tumors”, Clin Case Studie Rep 2019 2 3 1 12 Heidari A Esposito J Caissutti A Kalkitoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Clin Case Studie Rep, Volume 2 3 1 14 Heidari A Esposito J Caissutti A Diphtheria Toxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis: A Spectroscopic Study on an Anti–Cancer Drug”, Clin Case Studie Rep 2019 2 3 1 14 Heidari A Esposito J Caissutti A Symbiodinolide Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Clin Case Studie Rep, Volume 2 3 1 14 Heidari A Esposito J Caissutti A Saxitoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis” 2019 Am J Exp Clin Res 6 4 364 377 Gobato R Gobato M R R Heidari A Mitra A Hartree–Fock Methods Analysis Protonated Rhodochrosite Crystal and Potential 2019 in the Elimination of Cancer Cells through Synchrotron Radiation” 5 27 36 Gobato R Dosh I K K Heidari A Mitra A Gobato M R R Perspectives on the Elimination of Cancer Cells Using Rhodochrosite Crystal Through Synchrotron Radiation, and Absorption the Tumoral and Non–Tumoral Tissues” 2019 Arch Biomed Eng & Biotechnol 3 2 Gobato R Gobato M R R Heidari A Mitra A Unrestricted Hartree–Fock Computational Simulation in a Protonated Rhodochrosite Crystal” 2019 Phys Astron Int J 3 6 220 228 Heidari A Schmitt K Henderson M Besana E Perspectives on Sub–Nanometer Level of Electronic Structure of the Synchrotron with Mendelevium Nanoparticles for Elimination of Human Cancer Cells, Tissues and Tumors Treatment Using Mathematica 12.0” 2019 Journal of Energy Conservation 1 46 73 Heidari A Schmitt K Henderson M Besana E Simulation of Interaction of Synchrotron Radiation Emission as a Function of the Beam Energy and Bohrium Nanoparticles Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment” 2019 Current Research in Biochemistry and Molecular Biology 1 1 17 44 Heidari A Schmitt K Henderson M Besana E Investigation of Interaction between Synchrotron Radiation and Thulium Nanoparticles for Human Cancer Cells, Tissues and Tumors Treatment” 2019 European Journal of Scientific Exploration 2 Pages Heidari A Schmitt K Henderson M Besana E The Effectiveness of the Treatment Human Cancer Cells, Tissues and Tumors Using Darmstadtium Nanoparticles and Synchrotron Radiation” 2020 International Journal of Advanced Engineering and Science, Volume 9, Number 1 9 39 Heidari A Schmitt K Henderson M Besana E Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment in Simulation of Interaction of Synchrotron Radiation Emission as a Function of the Beam Energy and Uranium Nanoparticles” 2019 Nano Prog 1 2 Heidari A Schmitt K Henderson M Besana E A New Approach to Interaction between Beam Energy and Erbium Nanoparticles” 2019 Saudi J Biomed Res 4 11 372 396 Heidari A Schmitt K Henderson M Besana E Consideration of Energy Functions and Wave Functions of the Synchrotron Radiation and Samarium Nanoparticles Interaction During Human Cancer Cells, Tissues and Tumors Treatment Process” 2019 Sci. Int. (Lahore) 31 6 885 908 Heidari A Schmitt K Henderson M Besana E An Outlook on Optothermal Human Cancer Cells, Tissues and Tumors Treatment Using Lanthanum Nanoparticles under Synchrotron Radiation” 2019 Journal of Materials Physics and Chemistry 7 29 45 Heidari A Schmitt K Henderson M Besana E Effectiveness of Einsteinium Nanoparticles in Optothermal Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation” 2019 Journal of Analytical Oncology 8 43 62 Heidari A Schmitt K Henderson M Besana E Study of Relation between Synchrotron Radiation and Dubnium Nanoparticles in Human Cancer Cells, Tissues and Tumors Treatment Process” 2019 Int. Res. J. Applied Sci 1 1 20 Heidari A Schmitt K Henderson M Besana E A Novel Prospect on Interaction of Synchrotron Radiation Emission and Europium Nanoparticles for Human Cancer Cells, Tissues and Tumors Treatment” 2019 European Modern Studies Journal 3 5 11 24 Heidari A Schmitt K Henderson M Besana E Advantages, Effectiveness and Efficiency of Using Neodymium Nanoparticles by 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation” 2019 International Journal of Advanced Chemistry 7 2 119 135 Heidari A Schmitt K Henderson M Besana E 2019 Role and Applications of Promethium Nanoparticles in Human Cancer Cells, Tissues and Tumors Treatment”, Scientific Modelling and Research 4 1 8 14 Heidari A Esposito J Caissutti A Maitotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis: A Spectroscopic Study on an Anti–Cancer Drug” 2019 Glob Imaging Insights 4 2 1 13 Heidari A Esposito J Caissutti A Biotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Glob Imaging Insights 4 2 1 14 Heidari A Esposito J Caissutti A Time–Resolved Resonance FT–IR and Raman Spectroscopy and Density Functional Theory Investigation of Vibronic–Mode Coupling Structure 2019 in Vibrational Spectra of Nanopolypeptide Macromolecule beyond the Multi–Dimensional Franck–Condon Integrals Approximation and Density Matrix Method”, Glob Imaging Insights 4 2 1 14 Heidari A Esposito J Caissutti A Cholera Toxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Glob Imaging Insights 4 2 1 14 Heidari A Esposito J Caissutti A Nodularin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Glob Imaging Insights 4 2 1 14 Heidari A Esposito J Caissutti A Cangitoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Glob Imaging Insights 4 2 1 13 Heidari A Esposito J Caissutti A Ciguatoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Glob Imaging Insights 4 2 1 14 Heidari A Esposito J Caissutti A Brevetoxin (a) and (b) Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis: A Spectroscopic Study on an Anti–HIV Drug” 2019 Cientific Drug Delivery Research 1 2 11 16 Heidari A Esposito J Caissutti A Cobrotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Trends in Res 3 1 1 13 Heidari A Esposito J Caissutti A Cylindrospermopsin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Trends in Res 3 1 1 14 Heidari A Esposito J Caissutti A Anthrax Toxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) 2019 Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis”, Trends in Res 3 1 1 14 Heidari A Schmitt K Henderson M Besana E Investigation of Moscovium Nanoparticles as Anti–Cancer Nano Drugs for Human Cancer Cells, Tissues and Tumors Treatment” 2019 Elixir Appl. Chem 137 53943 53963 Heidari A Schmitt K Henderson M Besana E Study of Function of the Beam Energy and Holmium Nanoparticles Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment” 2019 European Journal of Advances in Engineering and Technology 6 12 34 62 Heidari A Schmitt K Henderson M Besana E Human Cancer Cells, Tissues and Tumors Treatment Using Dysprosium Nanoparticles” 2019 Asian J. Mat. Chem 4 3 47 51 Heidari A Schmitt K Henderson M Besana E Simulation of Interaction of Synchrotron Radiation Emission as a Function of the Beam Energy and Plutonium Nanoparticles Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment” 2019 J. Cancer Research and Cellular Therapeutics, Volume 2 4 1 19 Heidari A Schmitt K Henderson M Besana E Study of Gadolinium Nanoparticles Delivery Effect on Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation” 2019 Applied Chemistry 2 2 55 97 Heidari A Schmitt K Henderson M Besana E Gobato R Pros and Cons of Livermorium Nanoparticles for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation Using Mathematica 12.0” 2020 Parana Journal of Science and Education (PJSE) – v 6 1 31 Gobato R Gobato M R R Heidari A Mitra A Challenging Giants. Hartree–Fock Methods Analysis Protonated Rhodochrosite Crystal and Potential in the Elimination of Cancer Cells Through Synchrotron Radiation” 2020 Biomed J Sci & Tech Res 25 1 18843 18848 Heidari A Schmitt K Henderson M Besana E Simulation of Interaction between Ytterbium Nanoparticles and Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 18 Heidari A Schmitt K Henderson M Besana E Modelling of Interaction between Curium Nanoparticles and Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 18 Heidari A Schmitt K Henderson M Besana E Study of Berkelium Nanoparticles Delivery Effectiveness and Efficiency on Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 18 Heidari A Schmitt K Henderson M Besana E Fermium Nanoparticles Delivery Mechanism in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 17 Heidari A Schmitt K Henderson M Besana E Advantages of Lawrencium Nanoparticles for Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 18 Heidari A Schmitt K Henderson M Besana E Pros and Cons of the Roentgenium Nanoparticles for Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 17 Heidari A Schmitt K Henderson M Besana E Imagery of Flerovium Nanoparticles Delivery Process in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 18 Heidari A Esposito J Caissutti A Maitotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis: A Spectroscopic Study on an Anti–Gum Cancer Drug”, Dent Oral Maxillofac Res 2019 5 1 16 Heidari A Esposito J Caissutti A Batrachotoxin Time–Resolved Absorption and Resonance FT–IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic–Mode Coupling Structure in Vibrational Spectra Analysis: A Spectroscopic Study on an Anti–Gum Cancer Drug”, Dent Oral Maxillofac Res 2019 5 1 16 Heidari A Schmitt K Henderson M Besana E Hafnium Nanoparticles and Their Roles and Applications in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 17 Heidari A Schmitt K Henderson M Besana E Dramaturgy of Technetium Nanoparticles Delivery Process in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 19 Heidari A Schmitt K Henderson M Besana E Computational Approach to Interaction between Synchrotron Radiation Emission as a Function of the Beam Energy and Ruthenium Nanoparticles in Human Gum Cancer Cells, Tissues and Tumors Treatment”, Dent Oral Maxillofac Res 2019 5 1 18 Heidari A Schmitt K Henderson M Besana E Appearance Check of Rhodium Nanoparticles Delivery Trend in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 19 Heidari A Schmitt K Henderson M Besana E Orientation Rhenium Nanoparticles Delivery Target on Human Gum Cancer Cells, Tissues and Tumors under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 18 Heidari A Schmitt K Henderson M Besana E Drug Delivery Systems (DDSs) of Osmium Nanoparticles on Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 18 Heidari A Schmitt K Henderson M Besana E Development of Successful Formulations for Oral Drug Delivery Concepts of Iridium Nanoparticles in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2019 5 1 19 Heidari A Schmitt K Henderson M Besana E Classification of Drug Delivery System of Niobium Nanoparticles in Human Gum Cancer Gum Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2020 6 1 17 Heidari A Schmitt K Henderson M Besana E Types of Drug Delivery System Slideshare of Protactinium Nanoparticles in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2020 6 1 17 Heidari A Schmitt K Henderson M Besana E New Drug Delivery System in Pharmaceutics of Neptunium Nanoparticles in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2020 6 1 18 Heidari A Schmitt K Henderson M Besana E Drug Delivery Describes the Method and Approach to Delivering Drugs or Pharmaceuticals and Other Xenobiotics to Their Site of Action within Radon Nanoparticles Effects on Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2020 6 1 18 Heidari A Schmitt K Henderson M Besana E Applications of Oganesson Nanoparticles in Increasing Rapidly with the Promise of Targeted and Efficient Drug Delivery in Human Gum Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation”, Dent Oral Maxillofac Res 2020 6 1 19 Heidari A Schmitt K Henderson M Besana E Wheeler–Feynman Time– Symmetric Study of Effectiveness and Efficiency of Terbium Nanoparticles Delivery Mechanism in Human Cancer Cells, Tissues and Tumors under Synchrotron Radiation”, Frontiers Drug Chemistry Clinical Res 2020 3 1 13 Heidari A Schmitt K Henderson M Besana E Simulation of Interaction of Synchrotron Radiation Emission as a Function of the Beam Energy and Californium Nanoparticles Using 3D Finite Element Method (FEM) as an Optothermal Human Cancer Cells, Tissues and Tumors Treatment”, Oncol Res: Open Acce 2019 1 1 1 17 Heidari A Market Analysis of Glycobiology and Glycochemistry 2020 J Genet Disor Genet Rep 8 Heidari A Schmitt K Henderson M Besana E Synchrotron Radiation Emission as a Function of the Beam Energy and Thorium Nanoparticles” 2020 International Medicine; 2 1 67 73 Heidari A Schmitt K Henderson M Besana E Stochastic Study of Relativistic Lutetium Nanoparticles Moving in a Quantum Field of Synchrotron Radiation Emission When Charged Lutetium Nanoparticles Are Accelerated Radially in Human Cancer Cells, Tissues and Tumors Treatment”, Frontiers Drug Chemistry Clinical Res 2020 3 1 15