Dr. Diba Kadivar | Inorganic Chemistry | Best Researcher Award

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Dr. Diba Kadivar | Inorganic Chemistry| Best Researcher Award

Dr. Diba Kadivar | Inorganic Chemistry| Ph. D. graduate in inorganic chemistry at chemistry and chemical engineering research center of iran , Iran

Dr. Diba Kadivar is a Ph.D. graduate in Inorganic Chemistry with extensive expertise in anticancer platinum complexes. She has been serving as a technical assistant at the Iranian Food and Drug Administration (IFDA) for over eight years, contributing to pharmaceutical research and regulatory affairs. Dr. Kadivar has conducted significant studies on the synthesis, characterization, and biological activity of novel platinum-based anticancer agents. Her research focuses on the impact of geometric isomerism and aliphatic N-substituted glycine derivatives on platinum complexes’ pharmacological properties. She has published multiple papers in reputed journals and actively collaborates on cancer cell line studies. Passionate about innovative drug discovery, she has contributed to the development of metal-based nanocomplexes for potential therapeutic applications. Dr. Kadivar remains committed to advancing medicinal inorganic chemistry through her research and collaborations, aiming to enhance the effectiveness of anticancer therapies while minimizing side effects.

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Summary of Suitability for Award:

Dr. Diba Kadivar is a distinguished researcher in inorganic chemistry, specializing in anticancer platinum complexes. With a Ph.D. in inorganic chemistry and eight years of experience as a technical assistant at the Iranian Food and Drug Administration (IFDA), she has made notable contributions to the development of novel platinum-based anticancer agents. Her research focuses on the impact of geometric isomerism and the role of aliphatic N-substituted glycine derivatives in enhancing the biological activities of platinum complexes. She has published in reputable journals such as Elsevier and the Iranian Quarterly Journal of Chemical Communications, with a citation index of 18. Dr. Diba Kadivarā€™s innovative research on platinum-based anticancer drugs, scientific contributions, and expertise in inorganic medicinal chemistry make her highly suitable for the “Best Researcher Award.” Her work advances cancer treatment strategies, and her publications demonstrate scientific excellence and impact in medicinal chemistry.

šŸŽ“Education:

Dr. Diba Kadivar pursued her doctoral studies in Inorganic Chemistry, specializing in metal-based drug development and anticancer platinum complexes. Her academic journey has been marked by a strong foundation in medicinal chemistry, with a keen interest in exploring the role of isomerism in drug efficacy. During her Ph.D., she conducted extensive research on platinum complexes with glycine derivatives, focusing on their interaction with DNA and anticancer properties. Her work involved molecular docking, dynamic simulations, and in-vitro studies to evaluate the pharmacological potential of these compounds. Through her research, she contributed to the field of coordination chemistry and its applications in medicine. She has actively participated in international conferences, presenting her findings on novel platinum-based therapies. With a passion for drug discovery, Dr. Kadivar continues to apply her expertise in chemistry to enhance the effectiveness of anticancer agents.

šŸ¢Work Experience:

Dr. Diba Kadivar has accumulated over eight years of professional experience as a technical assistant at the Iranian Food and Drug Administration (IFDA). In this role, she has been actively involved in regulatory affairs, pharmaceutical analysis, and drug quality control, ensuring the safety and efficacy of therapeutic compounds. Alongside her administrative responsibilities, she has played a vital role in cancer research, working in laboratory settings to study platinum-based anticancer agents. Her expertise extends to working with cancer and normal cell lines, contributing to drug screening and cytotoxicity assays. Additionally, she has been involved in synthesizing and characterizing novel platinum complexes, focusing on their pharmacological interactions. Dr. Kadivar also collaborates with academic institutions and research centers, aiming to bridge the gap between regulatory science and drug discovery. Her hands-on experience in both research and regulatory affairs makes her a key contributor to pharmaceutical advancements in Iran.

šŸ…Awards:Ā 

Dr. Diba Kadivar has been recognized for her contributions to inorganic and medicinal chemistry, particularly in the field of platinum-based anticancer research. She has received accolades for her pioneering work on the role of geometric isomerism in anticancer drug efficacy. Her research has been acknowledged at national and international scientific conferences, where she has been invited as a speaker and presenter. She has also played a key role in regulatory initiatives at the Iranian Food and Drug Administration, contributing to drug quality assurance and research-based policy-making. Additionally, her publications in esteemed journals such as Elsevier and the Iranian Quarterly Journal of Chemical Communications have received notable citations, highlighting her impact on the field. Dr. Kadivarā€™s dedication to advancing cancer therapy and pharmaceutical sciences continues to earn her recognition among her peers, further solidifying her reputation as an innovative researcher in medicinal inorganic chemistry.

šŸ”¬Research Focus:

Dr. Diba Kadivarā€™s research primarily revolves around the synthesis, characterization, and biological evaluation of platinum-based anticancer complexes. She investigates the impact of geometric isomerism on drug efficacy, focusing on how structural variations influence DNA interactions and cytotoxicity. Her studies explore novel ligand designs, particularly aliphatic N-substituted glycine derivatives, to enhance the pharmacological properties of platinum complexes. In addition to drug synthesis, she conducts in-vitro studies on cancer and normal cell lines to assess the cytotoxic potential of these compounds. She is also involved in molecular docking and dynamic simulations to predict drug interactions at the molecular level. Furthermore, she has worked on calcium, magnesium, copper, and zinc glycine edible nanocomplexes, aiming to develop biocompatible metal-based therapies. Through her interdisciplinary approach, Dr. Kadivar contributes to bridging chemistry and medicine, paving the way for new, targeted anticancer treatments with improved therapeutic outcomes.

Publication Top Notes:

Pharmacological properties of some 3-substituted indole derivatives, a concise overview

Authors: K. Nikoofar, D. Kadivar, S. Shirzadnia

Citations: 13

Year: 2014

Effect of geometric isomerism on the anticancer property of new platinum complexes with glycine derivatives as asymmetric N, O donate ligands against human cancer

Authors: D. Kadivar, M. E. Moghadam, B. Notash

Citations: 5

Year: 2024

Novel anticancer agents, Pt complex with 1-pyrrolidineacetic acid ligand: Synthesis, biological activity, DNA interaction, molecular docking, and dynamic study

Authors: D. Kadivar, M. E. Moghadam, M. Rezaeisadat

Year: 2025

 

Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Best Researcher Award

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Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Best Researcher Award

Assist. Prof. Dr. Arman Zarebidaki | Materials Chemistry | Assistant professor at Amirkabir University of Technology , Iran

Dr. Arman Zarebidaki is an Assistant Professor and Head of the Corrosion Engineering and Material Protection Group at Amirkabir University of Technology (Tehran Polytechnic), Bandarabbas Campus, Iran. With a strong background in materials engineering, electrochemistry, and surface engineering, his research focuses on advanced coatings for corrosion protection, hydrogen evolution, and oxygen evolution reactions. He has extensive experience in electrochemical techniques such as polarization methods, voltammetry, and impedance spectroscopy. Dr. Zarebidaki has supervised over 25 master’s theses and has authored multiple high-impact journal articles. He holds three national patents in corrosion prevention and is recognized for his contributions to sustainable energy technologies and industrial material protection.

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Summary of Suitability for Award:

Dr. Arman Zarebidaki is a highly accomplished researcher in materials science, electrochemistry, and surface engineering, making him an exceptional candidate for the “Best Researcher Award”. His research spans crucial areas such as corrosion protection, electrocatalysis, and advanced coating technologies, which have significant industrial and environmental applications. His high-impact publications, extensive teaching experience, and contributions to innovative material protection methods demonstrate his leadership in the field. He has also secured three national patents, reflecting his ability to translate research into practical solutions. Recognized as the Top Researcher in Hormozgan Province (2023) and a Distinguished Researcher at Azad University (2015), his accolades further establish his excellence in scientific innovation. Dr. Zarebidakiā€™s outstanding research in corrosion-resistant coatings, electrochemical energy applications, and material durability makes him a strong contender for the “Best Researcher Award”. His work not only advances scientific knowledge but also has direct implications for industry and sustainability, positioning him among the top researchers in his field.

šŸŽ“Education:

Dr. Arman Zarebidaki holds a Ph.D. in Metallurgical & Materials Engineering from the University of Tehran (2006ā€“2012), where he investigated the tribo-corrosion behavior of Ni-P electroless coatings with SiC nanoparticles and carbon nanotubes. His doctoral research resulted in multiple high-impact publications. Prior to that, he earned an M.S. in Metallurgical & Materials Engineering from the University of Tehran (2003ā€“2006), focusing on optimizing and characterizing Al/Gr composites produced by in-situ powder metallurgy. His master’s research led to a Q2-ranked ISI publication. He completed his B.S. in Materials Engineering-Industrial Metallurgy at Azad University, Yazd Branch (1998ā€“2003), where he studied surface hardening of cast iron using the TIG process. Throughout his academic journey, he maintained outstanding GPAs and received multiple accolades for his research excellence. His extensive educational background laid the foundation for his expertise in materials engineering, corrosion protection, and advanced electrochemical methods.

šŸ¢Work Experience:

Dr. Arman Zarebidaki is an Assistant Professor at Amirkabir University of Technology, where he has been leading the Corrosion Engineering and Material Protection Group since 2023. He has been actively involved in teaching courses such as oxidation and hot corrosion, corrosion inhibitors, and advanced electrochemistry laboratory techniques. Prior to this, he served as an Assistant Professor at Azad University, Yazd Branch (2008ā€“2014), where he taught advanced electrochemistry, cathodic & anodic protection, and corrosion science. With over 25 master’s theses supervised, he has contributed significantly to the field of corrosion and electrocatalysis . His expertise includes deposition techniques for coatings and nanocomposite materials, corrosion assessments, and electrochemical analysis. He is proficient in methods such as cyclic voltammetry, linear sweep voltammetry, and electrochemical impedance spectroscopy. His research extends to nanotube production via anodizing, corrosion inhibition using green inhibitors, and the development of protective coatings for industrial applications.

šŸ…Awards:Ā 

Dr. Arman Zarebidaki has received several prestigious awards throughout his career. In 2023, he was recognized as the Top Researcher in technical and engineering fields in Hormozgan province. He was also named a Distinguished Researcher by the Deputy of Education and Technology at Islamic Azad University, Yazd Branch, in 2015. His exceptional teaching abilities earned him the Exemplary Professor Award in 2014. Additionally, his Ph.D. thesis was awarded as a Superior Dissertation at the University of Tehran in 2012. As an M.Sc. student, he ranked 1st among 50 peers in the Department of Material Science and Engineering. His contributions to the field of corrosion prevention and control are further highlighted by three national patents, including innovations in self-healing epoxy coatings, corrosion-fatigue assessment apparatus, and electroless coatings for oil and gas steel equipment, demonstrating his commitment to advancing materials engineering and corrosion protection technologies.

šŸ”¬Research Focus:

Dr. Arman Zarebidakiā€™s research centers on materials engineering, electrochemistry, and surface engineering, with a strong emphasis on developing advanced coatings to enhance material durability and performance. His work involves designing metallic, composite, and nanocomposite coatings for industrial applications, particularly for hydrogen evolution reaction (HER) and oxygen evolution reaction (OER), aiming to improve the efficiency of electrolysis in hydrogen and oxygen production. He specializes in electrochemical characterization techniques, including polarization methods, linear sweep voltammetry, cyclic polarization, and electrochemical impedance spectroscopy (EIS), to analyze corrosion resistance and material degradation. Additionally, he investigates electrocatalysis mechanisms and surface chemistry to develop sustainable energy solutions. His expertise extends to nanotube production through anodizing, corrosion inhibitors, and smart coatings. His contributions help address global challenges related to energy sustainability, environmental protection, and climate change, making his research pivotal in the advancement of corrosion-resistant and energy-efficient materials.

Publication Top Notes:

Influence of graphite content on the dry sliding and oil impregnated sliding wear behavior of Al 2024ā€“graphite composites produced by in situ powder metallurgy method

Citations: 396

An investigation on effects of heat treatment on corrosion properties of Niā€“P electroless nano-coatings

Citations: 166

Effect of surfactant on the fabrication and characterization of Ni-P-CNT composite coatings

Citations: 104

Characterization and corrosion behavior of electroless Niā€“P/nano-SiC coating inside the CO2 containing media in the presence of acetic acid

Citations: 96

The effect of sliding speed and amount of loading on friction and wear behavior of Cuā€“0.65 wt.% Cr alloy

Citations: 47

Microstructure and corrosion behavior of electrodeposited nano-crystalline nickel coating on AZ91 Mg alloy

Citations: 46

Evaluation of corrosion inhibition of mild steel in 3.5 wt% NaCl solution by cerium nitrate

Citations: 43

Electrodeposition and characterization of Coā€“BN (h) nanocomposite coatings

Citations: 42

An experimental study on stress corrosion behavior of A131/A and A131/AH32 low carbon steels in simulated seawater

Citations: 28

Porosity measurement of electroless Niā€“P coatings reinforced by CNT or SiC particles

Citations: 28

 

Dr. Minitha R | Inorganic Chemistry | Best Researcher Award

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Dr. Minitha R | Inorganic Chemistry | Best Researcher Award

Dr. Minitha R ,Inorganic Chemistry, GOVERNMENT POLYTECHNIC COLLEGE, EZHUKONE, KOLLAM, KERALA, India

Dr. Minitha R. is an Associate Professor with over 14 years of teaching and 15 years of research experience in chemistry. She holds an M.Sc., M.Phil., NET, UGC-JRF, and Ph.D. Her expertise spans organic, coordination, supramolecular, and inorganic chemistry. She has served in key academic roles, including NSS Programme Officer and Chief Superintendent of Examinations. A dedicated researcher, Dr. Minitha has guided students and undertaken projects like developing a chemosensor for metal ion detection. She has organized multiple national seminars and actively participates in international conferences and workshops.

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Summary of Suitability for Award:

Dr. Minitha R., an accomplished Associate Professor with 15 years of research experience, has significantly contributed to the field of Inorganic Chemistry, particularly in Coordination Chemistry, Supramolecular Chemistry, and Organic Chemistry. With a strong publication record, she has authored several impactful research papers in highly reputed journals, covering diverse topics such as metal complexes, chemosensors, molecular structures, and spectroscopic studies. Dr. Minitha R. is an exceptional candidate for the “Best Researcher Award,” given her proven research excellence, scholarly contributions, and leadership in the scientific community. Her extensive work in metal-based coordination complexes, chemosensors, and supramolecular chemistry, along with her active role in mentoring and academic leadership, makes her a highly deserving nominee.

šŸŽ“Education:

Dr. Minitha R. holds a Ph.D. in Chemistry and has qualified for the NET and UGC-JRF. She completed her M.Sc. and M.Phil. in Chemistry, demonstrating academic excellence throughout. Her education provided her with a strong foundation in inorganic chemistry, particularly in complex synthesis, supramolecular interactions, and chemosensing applications. Her academic journey was driven by a passion for molecular recognition, ligand design, and structural chemistry. She has actively participated in seminars and workshops to enhance her knowledge and keep up with evolving research trends.

šŸ¢Work Experience:

With 14 years of teaching and 15 years of research experience, Dr. Minitha R. has handled Organic, Inorganic, and Physical Chemistry courses. She has successfully guided research scholars, fostering innovations in supramolecular and coordination chemistry. Apart from teaching, she has played key roles as an NSS Programme Officer, Nature Club Coordinator, Chief Superintendent of Examinations, and Young Innovators Programme Facilitator. She has also organized national seminars and workshops on emerging trends in chemistry, enhancing academic collaboration and knowledge dissemination.

šŸ…Awards:Ā 

Dr. Minitha R. has been recognized for her outstanding contributions to academia and research. She served as the NSS Programme Officer (2021-2022), demonstrating her commitment to student welfare and community service. As the Nature Club Coordinator (2019-2020), she played a crucial role in promoting environmental awareness. Her leadership extended to being the Chief Superintendent of Examinations (2020-2021), ensuring smooth academic assessments. Additionally, she facilitated the Young Innovators Programme (2019), fostering creativity and scientific curiosity among students. Her research endeavors were supported by a KSCSTE-funded M.Sc. student project, where she developed a chemosensor for metal ion detection. These roles reflect her dedication to education, research, and institutional development.

šŸ”¬Research Focus:

Dr. Minitha R. specializes in Inorganic Chemistry, with a keen interest in Organic Chemistry, Coordination Chemistry, and Supramolecular Chemistry. Her research explores the synthesis and characterization of novel metal complexes, particularly those with biological and chemosensory applications. She has contributed significantly to the development of pyrazolylhydrazone-based metal complexes, dioxo molybdenum(VI) compounds, and benzothiazolium salts. Her work also extends to fluorescent hydrazones and ruthenium(II) complexes, emphasizing their structural and functional properties. Additionally, her studies on five-coordinate Zn(II) complexes highlight their potential in nonlinear optical applications. Through her research, she aims to bridge the gap between fundamental chemistry and real-world applications, particularly in materials science, catalysis, and medicinal chemistry.

Publication Top Notes:

Formation of dicyano ruthenium(II) complex mediated by triethylamine via deprotonation of hydrazonochroman-2,4-dione
Synthesis, spectroscopic and biological studies of metal complexes of an ONO donor pyrazolylhydrazone ā€“ Crystal structure of ligand and Co(II) complex
Studies of some dioxo molybdenum(VI) complexes of a polydentate ligand
One pot synthesis of 1ā€“(3ā€“methylā€“4Hā€“benzo[1,4]thiazinā€“2ā€“yl)-ethanone and its antimicrobial properties
Ā Synthesis, spectral, and magnetic studies of benzothiazolium tetrachlorocuprate salts: crystal structure and semiconducting behavior of bis[2-(4-methoxyphenyl)benzothiazolium] tetrachlorocuprate(II)
Fluorescent coumarin-based hydrazone: Synthesis, crystal structure, and spectroscopic studies
FT-IR, FT-Raman and computational study of 1H-2,2-dimethyl-3H-phenothiazin-4[10H]-one
Synthesis, crystal structure, spectral analysis, and NLO studies of five-coordinate Zn(II) complexes of hydrazochromandione
Ā Chemosensing study of 1,4-Benzothiazine generated from acetylacetone

 

Prof. Massimo Padalino | Medicinal Chemistry | Excellence in Innovation Award

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Prof. Massimo Padalino | Medicinal Chemistry | Excellence in Innovation Award

Prof. Massimo Padalino | Medicinal Chemistry | Professore associato at University of Bari, Italy

Dr. Massimo Antonio Padalino obtained his M.D. from the University of Padova, Italy, in 1995. He completed his residency in Cardiovascular Surgery at the University of Padova Medical School (1995-1999), where he served as Chief Resident (1999-2000). He pursued advanced surgical training through prestigious fellowships, including a Surgical Clinical Fellowship in Cardiovascular Surgery at the Mayo Clinic, USA (2001-2002), and specialized training in Pediatric Cardiovascular Surgery at Boston Childrenā€™s Hospital, Harvard Medical School (2002), and Mott Childrenā€™s Hospital, University of Michigan (2003-2004). He earned a Ph.D. in Cardiovascular Sciences from the University of Padova (2005-2008) and further specialized with a Masterā€™s degree in Cardiovascular Pathology (2011) and Pediatric Cardiology (2014). Additionally, he completed a research fellowship at the Cardiac Registry, Harvard Medical School, and a visiting fellowship at Johns Hopkins Hospital (2015), solidifying his expertise in congenital and pediatric cardiac surgery.

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Summary of Suitability for Award:

Dr. Massimo Antonio Padalino is an outstanding candidate for the “Excellence in Innovation Award” due to his pioneering contributions to pediatric and congenital cardiovascular surgery. His research has led to innovative surgical techniques for congenital heart disease, particularly in neonatal and single-ventricle repairs. His work on novel bioprosthetic materials, cardiac regeneration, and mechanical circulatory support (ECMO, VAD) has significantly improved patient outcomes. He has also played a key role in international registries (EUROFONTAN, EUROAAOCA) and multicenter studies, advancing global knowledge in congenital heart surgery. His collaboration with premier institutions like Harvard Medical School and Mayo Clinic further highlights his commitment to innovation. Dr. Padalino’s groundbreaking work in pediatric cardiac surgery, including innovative surgical strategies, regenerative medicine, and advanced circulatory support techniques, makes him highly suitable for the “Excellence in Innovation Award.” His contributions have transformed congenital heart disease treatment, making a lasting impact on the field.

šŸŽ“Education:

Dr. Massimo Antonio Padalino obtained his M.D. from the University of Padova inĀ  Italy.Ā  He completed his residency in Cardiovascular Surgery at the University of Padova Medical School (1995-1999), where he served as Chief Resident (1999-2000). He pursued advanced surgical training through prestigious fellowships, including a Surgical Clinical Fellowship in Cardiovascular Surgery at the Mayo Clinic, USA (2001-2002), and specialized training in Pediatric Cardiovascular Surgery at Boston Childrenā€™s Hospital, Harvard Medical School (2002), and Mott Childrenā€™s Hospital, University of Michigan (2003-2004). He earned a Ph.D. in Cardiovascular Sciences from the University of Padova (2005-2008) and further specialized with a Masterā€™s degree in Cardiovascular Pathology (2011) and Pediatric Cardiology (2014). Additionally, he completed a research fellowship at the Cardiac Registry, Harvard Medical School, and a visiting fellowship at Johns Hopkins Hospital (2015), solidifying his expertise in congenital and pediatric cardiac surgery.

šŸ¢Work Experience:

Dr. Massimo Antonio Padalino has over two decades of experience in pediatric and congenital cardiovascular surgery. Since December 2023, he has served as Pediatric and Congenital Cardiac Surgeon in Chief at UOC Cardiochirurgia, University of Bari, Italy. Previously, he was a senior Pediatric and Congenital Cardiovascular Surgeon at the University of Padova Medical School (2004-2023), where he independently performed approximately 150 complex congenital heart surgeries annually, spanning neonates to adults. His expertise includes neonatal heart surgery, single-ventricle palliation, heart transplantation, and mechanical circulatory support (ECMO and VAD). His clinical training includes tenures at leading institutions such as Mayo Clinic, Boston Childrenā€™s Hospital, and the University of Michigan. He has also been actively involved in postoperative intensive care, clinical research, and multicenter studies, significantly contributing to advancements in pediatric cardiac surgery. His leadership extends to mentoring and training the next generation of cardiac surgeons.

šŸ…Awards:Ā 

Dr. Massimo Antonio Padalino has received numerous accolades for his contributions to pediatric and congenital cardiovascular surgery. He is a Fellow of the European Society of Cardiology (FESC) and has been recognized for his expertise in congenital heart disease management. His work in innovative surgical strategies and regenerative medicine has earned him invitations to speak at leading international cardiology and cardiac surgery conferences. He has also received research grants for pioneering studies in cardiac regeneration, bioprosthetic materials, and surgical outcomes in congenital heart disease. His collaborations with renowned institutions, including Harvard Medical School and the Mayo Clinic, have strengthened his reputation as a leading figure in pediatric cardiac surgery. His research and clinical excellence are reflected in his numerous high-impact publications, which have significantly influenced advancements in congenital heart surgery and pediatric cardiology worldwide.

šŸ”¬Research Focus:

Dr. Massimo Antonio Padalinoā€™s research focuses on congenital heart disease surgery, particularly early repair techniques and novel surgical strategies for single-ventricle physiology. He actively contributes to international registries, including the EUROFONTAN and EUROAAOCA, studying surgical outcomes in congenital heart defects. His work explores innovative approaches to preserving pulmonary valve function in Tetralogy of Fallot repair and alternative strategies for managing end-stage heart failure in children, including ECMO, VAD, and pulmonary artery banding. Additionally, he investigates heart transplantation in congenital heart disease, cardiac regeneration in infants with dilated cardiomyopathy, and bioprosthetic materials for cardiac tissue reconstruction. His research also addresses the neurological and pulmonary effects of cardiopulmonary bypass in pediatric patients, aiming to improve outcomes and long-term survival. Through clinical trials and multicenter studies, Dr. Padalino is dedicated to advancing pediatric cardiac surgery, refining surgical techniques, and enhancing postoperative care for children with complex congenital heart conditions.

Publication Top Notes:

Heartā€“Liver Interplay in Patients with Fontan Circulation

Authors: Not provided in the given data

Year: 2025

Citations: Data not available

DOI: 10.3390/jcm14041114

The Impact of Dominant Ventricle Morphology and Additional Ventricular Chamber Size on Clinical Outcomes in Patients with Fontan Circulation

Authors: Not provided in the given data

Year: 2025

Citations: Data not available

DOI: 10.1017/S1047951124026581

First Report from the European Registry for Anomalous Aortic Origin of Coronary Artery (EURO-AAOCA)

Authors: Not provided in the given data

Year: 2024

Citations: Data not available

DOI: 10.1093/icvts/ivae074

Current Understanding and Future Directions of Transcatheter Devices to Assist Failing Fontan

Authors: Not provided in the given data

Year: 2024

Citations: Data not available

DOI: 10.1016/j.jscai.2024.101334

Intracorporeal LVAD Implantation in Pediatric Patients: A Single-Center 10 Years’ Experience

Authors: Not provided in the given data

Year: 2024

Citations: Data not available

DOI: 10.1111/aor.14716

Late Gadolinium Enhancement and Anomalous Coronary Aortic Origin in a Large Paediatric Cohort

Authors: Not provided in the given data

Year: 2024

Citations: Data not available

DOI: 10.1093/eurheartj/ehae545

Percutaneous Approach to Residual Pulmonary Bifurcation Stenosis in Conotruncal Diseases

Authors: Not provided in the given data

Year: 2024

Citations: Data not available

DOI: 10.1017/s1047951123000999

Postoperative Outcomes of Fontan Operation in a Multicenter Italian Study. How Far Have We Gone? Early Outcomes After Fontan Operation

Authors: Not provided in the given data

Year: 2024

Citations: Data not available

DOI: 10.1007/s00246-024-03642-2

Successful Implantation of HeartMate3 in a Small Child After Multimodality Imaging Pathway to Assess Feasibility

Authors: Not provided in the given data

Year: 2024

Citations: Data not available

DOI: 10.1097/MAT.0000000000002069

Overshoot of the Respiratory Exchange Ratio during Recovery from Maximal Exercise Testing in Young Patients with Congenital Heart Disease

Authors: Not provided in the given data

Year: 2023

Citations: Data not available

DOI: 10.3390/children10030521

Three-Dimensional-Enabled Surgical Planning for the Correction of Right Partial Anomalous Pulmonary Venous Return

Authors: Not provided in the given data

Year: 2023

Citations: Data not available

DOI: 10.3390/jcm12020472

Chronic Heart Failure in Children: State of the Art and New Perspectives

Authors: Not provided in the given data

Year: 2023

Citations: Data not available

DOI: 10.3390/jcm12072611

Effect of Preoperative Pulmonary Hemodynamic and Cardiopulmonary Bypass on Lung Function in Children with Congenital Heart Disease

Authors: Not provided in the given data

Year: 2023

Citations: Data not available

DOI: 10.1007/s00431-023-04926-0

Hybrid Approach for End-Stage Heart Failure Treatment in a 6-Month-Old Baby

Authors: Not provided in the given data

Year: 2023

Citations: Data not available

DOI: 10.1017/S104795112300046X

Late Left Ventricular Myocardial Remodeling After Pulmonary Artery Banding for End-Stage Dilated Cardiomyopathy in Infants: An Imaging Study

Authors: Not provided in the given data

Year: 2023

Citations: Data not available

DOI: 10.1016/j.ijcard.2023.05.040

Ms. Apurva Singh | Organic Chemistry | Best Researcher Award

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Ms. Apurva Singh | Organic Chemistry | Best Researcher Award

Ms. Apurva Singh | Organic Chemistry | PhD at Indian institute of technology Roorkee, India

Apurva Singh is an organic chemistryĀ  with a keen interest in technological advancements and artificial intelligence applications in chemistry. With five years of research experience in academic laboratories and two years as a tutor, she specializes in organic synthesis and catalysis. Currently pursuing her Ph.D. at IIT Roorkee under Prof. Naseem Ahmed, she is engaged in process chemistry, exploring new methodologies using homogeneous and heterogeneous catalysis. Apurva has a strong publication record in international journals, reflecting her expertise and dedication to scientific research. She is highly motivated, analytical, and committed to knowledge exchange. Her enthusiasm for teaching, research, and interdisciplinary collaboration makes her a dynamic professional in the field of chemistry.

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Summary of Suitability for Award:

Apurva Singh is a highly promising researcher in the field of organic synthesis and catalysis, demonstrating a strong commitment to scientific innovation. With five years of research experience at IIT Roorkee, she has contributed significantly to the development of novel catalytic methodologies, particularly in transition-metal catalysis, oxidation reactions, and organo catalysis. Her research has led to multiple publications in high-impact journals, including RSC, Synthesis (Thieme), and Organic & Biomolecular Chemistry, showcasing her ability to conduct impactful studies. Additionally, she has received prestigious poster awards at national and international conferences, underscoring her ability to effectively present and communicate her findings. Given her strong publication record, innovative research contributions, and recognition through awards, Apurva Singh is a highly suitable candidate for the “Best Researcher Award.” Her work in catalysis and organic synthesis, coupled with her dedication to advancing chemical sciences, makes her a deserving nominee for this prestigious recognition.

šŸŽ“Education:

Apurva Singh is currently pursuing her Ph.D. in Organic Synthesis and Catalysis at the Indian Institute of Technology (IIT) Roorkee under the mentorship of Prof. Naseem Ahmed. Her research focuses on developing innovative catalytic methodologies for organic transformations, with publications in reputed journals such as RSC and Synthesis (Thieme). Prior to her Ph.D., she completed her Master of Science (M.Sc.) in Chemistry from Chaudhary Charan Singh University (CCSU), Meerut, in 2017, securing a first-class distinction with 76%. During her postgraduate studies, she gained expertise in organic chemistry and reaction mechanisms, further strengthening her foundation in the subject. Additionally, she pursued a Bachelor of Education (B.Ed.) from CCSU, Meerut, from 2018 to 2020, achieving 80%. Her B.Ed. degree equipped her with essential teaching skills, enhancing her ability to mentor and guide students in the academic field. Apurvaā€™s strong academic background demonstrates her dedication to both research and education.

šŸ¢Work Experience:

Apurva Singh has over five years of research experience in organic chemistry, specializing in catalysis, and two years of teaching experience. She is currently a Ph.D. researcher at IIT Roorkee, working on process chemistry, where she investigates novel catalytic methodologies for organic synthesis. Her research involves designing transition-metal complexes for oxidation reactions and developing regio selective synthetic strategies. She has published multiple research articles in internationally recognized journals, highlighting her contributions to the field. Apart from research, she has two years of experience as an academic tutor, mentoring undergraduate and postgraduate students in organic chemistry. She has assisted in research activities, manuscript writing, and conference presentations. Her expertise extends to coding for computational chemistry applications, bridging experimental and theoretical approaches. Apurvaā€™s proactive nature and strong communication skills enable her to collaborate effectively, making significant contributions to both research and academic training.

šŸ…Awards:Ā 

Apurva Singh has received multiple accolades for her outstanding research contributions. In 2024, she was awarded the Poster Award at the Indian Academy of Sciences Meeting and Lecture Workshop held at IIT Roorkee, recognizing her innovative work in catalysis and organic synthesis. In the same year, she won another Poster Award at the 2nd International Conference on Molecules to Materials at NIT Hamirpur, further establishing her expertise in the field. These awards highlight her ability to present complex scientific findings effectively and her dedication to advancing research. Her work has been widely appreciated for its significance in developing new catalytic methodologies, and she continues to be an active participant in scientific conferences and symposiums. Apurvaā€™s achievements reflect her commitment to excellence in research and academia, positioning her as a promising scientist in the field of organic chemistry.

šŸ”¬Research Focus:

Apurva Singhā€™s research focuses on organic synthesis and catalysis, with a strong emphasis on developing novel transition-metal complexes for oxidation reactions. She explores homogeneous and heterogeneous catalysis to improve reaction efficiency and selectivity, mimicking enzymatic processes for sustainable chemistry. Her work includes the design of Ī¼-chlorido-bridged dimanganese(II) complexes to replicate galactose oxidase enzyme activity, offering applications in oxidation and aldol reactions. She is also engaged in Fenton free radical reactions for regio selective synthesis of complex molecules. Her recent studies on organocatalytic synthesis of bioactive pyrazoline and pyrimidine derivatives contribute to medicinal chemistry by targeting bacterial enzymes like thymidine kinase in Staphylococcus aureus. Apurva is particularly interested in the intersection of chemistry and artificial intelligence, leveraging computational tools to predict reaction mechanisms and optimize catalyst design. Her multidisciplinary approach bridges fundamental chemistry with emerging technologies, driving innovation in organic synthesis and process chemistry.

Publication Top Notes:

1. Nickel(II)-hydrazineylpyridine catalyzed regioselective synthesis of Ī±-benzyl substituted Ī²-hydroxy ketones via a Fenton free radical reaction

Authors: Not provided in the given data

Year: 2025

Journal: Organic & Biomolecular Chemistry

2. Oxidative Cyclization Reactions Catalyzed by Designed Transition-Metal Complexes: A New Strategy for the Synthesis of Flavone, Quinolone, and Benzofuran Derivatives

Authors: Not provided in the given data

Year: 2023

Journal: Synthesis

3. Designed Ī¼-Chlorido-bridged dimanganese(II) complexes to mimic the activity of galactose oxidase enzyme: Application in the dehydrogenative oxidation of alcohol and aldol reaction

Authors: Not provided in the given data

4. Organocatalytic synthesis of novel pyrazoline and pyrimidine derivatives as potent thymidine kinase inhibitors targeting Staphylococcus aureus

Authors: M.I. Issa Alahmdi

Year: 2025

 

 

Prof. Dr. Helin Niu | Inorganic Chemistry | Best Researcher Award

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Prof. Dr. Helin Niu | Inorganic Chemistry | Best Researcher Award

Prof. Dr. Helin Niu , Anhui University , China

Prof. Dr. Helin Niu (ē‰›å’Œęž—) is a distinguished Professor and Head of the Chemistry Department at Anhui University, China. With a Ph.D. from the University of Science and Technology of China, his expertise lies in the synthesis and application of novel photoelectric functional materials. His research spans energy science, food science, and life science, focusing on developing advanced materials for environmental and technological applications. Prof. Helin Niu has secured multiple prestigious research grants, including funding from the National Natural Science Foundation of China. He has held academic positions at Korea University and conducted postdoctoral research at Hefei National Laboratory for Physical Sciences. His contributions to material chemistry have led to innovative advancements in flexible electronic devices, supercapacitors, and metal-organic frameworks. With numerous high-impact publications, he is a leader in inorganic chemistry and materials chemistry, actively mentoring Ph.D. students and advancing the field through interdisciplinary research.

Professional Profile:

Scopus

Summary of Suitability for Award:

Prof. Helin Niu is a highly accomplished researcher in the field of inorganic and materials chemistry, making him a strong candidate for the Best Researcher Award. As a Professor, Ph.D. Supervisor, and Head of the Chemistry Department at Anhui University, his contributions extend beyond research, impacting education and scientific leadership. His work on photoelectric functional materials, energy storage systems, and metal-organic frameworks has led to groundbreaking innovations in material science. Prof. Helin Niuā€™s exceptional research output, leadership in academia, and contributions to material chemistry innovations make him highly deserving of the Best Researcher Award. His commitment to advancing scientific knowledge, mentoring young researchers, and securing competitive funding positions him as a leader in modern chemistry. Recognizing him with this award would acknowledge not only his research excellence but also his significant impact on scientific progress and innovation.

šŸŽ“Education:

Prof. Helin Niu obtained his Ph.D. in Chemistry from the University of Science and Technology of China. His doctoral research, under the supervision of Professor Qian-Wang Chen, focused on the synthesis and mechanism studies of functional materials. His academic journey laid a strong foundation for his expertise in inorganic chemistry and materials chemistry. Throughout his studies, he developed a deep understanding of chemical preparation, performance evaluation, and the applications of novel materials. His research training at one of Chinaā€™s top institutions provided him with extensive experience in advanced analytical techniques, computational modeling, and nanomaterial synthesis. His passion for chemistry led him to explore the intersections of photoelectric materials, energy storage, and environmental applications. His education equipped him with the skills to conduct cutting-edge research and develop innovative solutions for next-generation functional materials, establishing him as a leading scientist in his field.

šŸ¢Work Experience:

Prof. Helin Niu has held multiple prestigious academic and research positions. Currently, he serves as a Professor and Ph.D. Supervisor at the School of Chemistry and Chemical Engineering, Anhui University, where he also leads the Chemistry Department. He has been instrumental in shaping the universityā€™s research direction in advanced material science. His international experience includes serving as a Research Lecturer at Korea Universityā€™s Center for Advanced Device Materials, where he contributed to material innovation. Additionally, he completed a postdoctoral research fellowship at the Hefei National Laboratory for Physical Sciences, further deepening his expertise in nanoscale material synthesis and characterization. Over the years, he has led numerous funded projects, collaborated with industrial partners, and guided students in pioneering research. His commitment to scientific advancement and mentorship has made him a key figure in Chinaā€™s inorganic chemistry and materials science community.

šŸ…Awards:Ā 

Prof. Helin Niu has received numerous accolades for his groundbreaking research in chemistry. His work has been recognized with prestigious grants from the National Natural Science Foundation of China, Postdoctoral Science Foundation of China, and the Ministry of Educationā€™s Research Start-up Fund for Returned Scholars. He has also secured funding from industry leaders, including Shanghai Tobacco Group Corporation and Shanghai Haowei Chemical Co., Ltd. His scientific excellence has been acknowledged through competitive provincial awards, including support from the Anhui Provincial Department of Education and the Natural Science Foundation of Anhui Province. In recognition of his innovative contributions, he has been invited as a keynote speaker at major scientific conferences and serves as a reviewer for high-impact journals. His dedication to advancing material chemistry and his influence in academia make him a well-respected leader in his field.

šŸ”¬Research Focus:

Prof. Helin Niu specializes in the chemical preparation, performance evaluation, and application of novel photoelectric functional materials. His research is centered on developing high-performance composite devices for energy storage, flexible electronics, and environmental applications. A significant portion of his work involves the synthesis of metal-organic frameworks, supercapacitor electrode materials, and near-infrared-responsive nanocomposites. His contributions to food science include the detection of harmful pollutants using advanced materials. He also explores energy-efficient devices, such as carbon membrane-based sensors and flexible capacitors. His interdisciplinary approach combines fundamental chemistry with applied research, pushing the boundaries of material science. Through his funded projects, he has made significant advancements in metal-induced self-assembly techniques, electrochemical energy storage, and photonic materials, solidifying his reputation as a leader in inorganic chemistry and materials chemistry.

Publication Top Notes:

Fine-tuning the molecular conformation and packing structures of coumarin-based luminogens to achieve distinct piezochromic properties upon mechanical grinding and under hydrostatic pressures

Authors: S. Fu, H. Jia, X. Meng, J. Yang, H. Niu

Journal: Materials Horizons

Year: 2024

Citations: 1

A general metal acetate-assisted alcohol thermal strategy to fabricate flexible carbon nanofiber films for supercapacitors

Authors: W. Song, K. Wang, X. Lian, C. Xu, H. Niu

Journal: Inorganic Chemistry Frontiers

Year: 2024

Rational design of MXene/MWCNT/TOCNF film for flexible supercapacitor

Authors: J. Chen, M. Feng, X. Lian, K. Wang, H. Niu

Journal: Ceramics International

Year: 2024

Citations: 3

Controlling the Degree of Interpenetration in Chiral Three-Dimensional Covalent Organic Frameworks via Steric Tuning

Authors: K. Wang, B. Hou, J. Dong, Y. Liu, Y. Cui

Journal: Journal of the American Chemical Society

Year: 2024

Citations: 5

Non-preoxidation synthesis of MXene integrated flexible carbon film for supercapacitors

Authors: W. Song, K. Wang, X. Lian, F. Zheng, H. Niu

Journal: Chemical Engineering Journal

Year: 2024

Citations: 4

Sulfur-Doped CoNi Layered Double Hydroxide/Carbon Nanofiber Composite Films for Flexible Supercapacitors

Authors: W. Song, K. Wang, X. Lian, H. Niu

Journal: ACS Applied Nano Materials

Year: 2024

Citations: 3

Multicolor Fluorescent Inks Based on Lanthanide Hybrid Organogels for Anticounterfeiting and Logic Circuit Design

Authors: X. Lian, R. Chang, G. Huang, B. Yao, H. Niu

Journal: ACS Applied Materials and Interfaces

Year: 2024

Citations: 2

Highly Flexible Carbon Film Implanted with Single-Atomic Znāˆ’N2_2 Moiety for Long-Life Sodium-Sulfur Batteries

Authors: G. Yao, Z. Li, Y. Zhang, Y. Yang, F. Zheng

Journal: Advanced Functional Materials

Year: 2024

Citations: 28

Ni3_3S4_4 combined hydrophilic hydroxylated MWCNTs for high-performance asymmetric supercapacitors

Authors: J. Zheng, H. Niu, J. Zhao, Z. Zhao, G. Li

Journal: Diamond and Related Materials

Year: 2023

Citations: 1

Highly Flexible K-Intercalated MnO2_2/Carbon Membrane for High-Performance Aqueous Zinc-Ion Battery Cathode

Authors: J. Yang, G. Yao, Z. Li, Q. Chen, F. Zheng

Journal: Small

Year: 2023

Citations: 60

 

 

 

 

 

Prof. Dr. Mahmoud Omar | Analytical Chemistry | Best Researcher Award

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Prof. Dr. Mahmoud Omar | Analytical Chemistry | Best Researcher Award

Prof. Dr. Mahmoud Omar , Faculty of pharmacy, Taibah University , Egypt

Dr. Mahmoud Ahmed Omar Hassan is a distinguished Professor specializing in Pharmacognosy and Pharmaceutical Chemistry. Currently serving at the College of Pharmacy, Taibah University, Saudi Arabia, he brings extensive expertise in analytical chemistry and pharmaceutical sciences. His research emphasizes innovative analytical methods and the determination of pharmaceutical compounds in diverse matrices. With over two decades of teaching and research, Dr. Hassan has significantly contributed to pharmacy education, mentoring students in analytical and pharmaceutical chemistry. He is widely published, with impactful work on spectro fluorimetry, spectrophotometry, chromatography, and voltammetry. His contributions enhance drug quality assurance and pharmaceutical analysis.

Professional Profile

Google Scholar

Scopus

Summary of Suitability for Award:

Dr. Mahmoud Ahmed Omar Hassan is an exemplary candidate for the “Best Researcher Awards” due to his extensive contributions to pharmaceutical analytical chemistry. With over 25 years of experience in academia and research, he has demonstrated unparalleled expertise in developing innovative analytical methods. His research addresses critical challenges in drug analysis, including determination in pharmaceutical formulations and biological fluids, with a strong focus on green chemistry and quality assurance. Dr. Hassanā€™s prolific publication record includes high-impact articles in peer-reviewed journals, showcasing groundbreaking work in spectrofluorimetry, chromatography, and photoluminescence. He has also been a mentor and educator, teaching advanced courses and shaping future scientists.

šŸŽ“Education:

Dr. Mahmoud Ahmed Omar Hassan holds a Ph.D. in Pharmaceutical Sciences (Pharmaceutical Analytical Chemistry) from Minia University, Egypt, completed in 2005. His doctoral research emphasized advanced analytical techniques for pharmaceutical applications. He earned his Masterā€™s degree in Pharmaceutical Sciences (Pharmaceutical Analytical Chemistry) from Assiut University, Egypt, in 1999, focusing on drug analysis and quality control. He began his academic journey with a Bachelorā€™s degree in Pharmaceutical Sciences from Al-Azhar University, Egypt, in 1994. His comprehensive educational foundation underpins his expertise in analytical chemistry, making him a leader in pharmaceutical education and research.

šŸ¢Work Experience:

Dr. Hassanā€™s career spans over 25 years in academia and research. He started as a Demonstrator at Al-Azhar University in 1995, progressing to Associate Lecturer by 1999. He joined Minia University in 1999, where he served as an Assistant Professor until 2010, later becoming an Associate Professor (2010ā€“2015) and Professor (2015ā€“2019). In 2019, he joined Taibah University, Saudi Arabia, as a Professor in the Pharmacognosy and Pharmaceutical Chemistry Department, where he teaches pharmaceutical analytical chemistry and technology courses. His vast teaching experience and mentorship have shaped future leaders in pharmaceutical sciences.

šŸ…Awards:Ā 

Dr. Hassan has been recognized for his contributions to pharmaceutical sciences and education. He received accolades for research excellence at Minia University and was honored at Taibah University for advancing pharmaceutical analysis techniques. His innovative teaching methods and mentorship earned him recognition from students and academic institutions alike. Dr. Hassanā€™s achievements reflect his dedication to advancing analytical chemistry and his impactful role in enhancing pharmaceutical education and research.

šŸ”¬Research Focus:

Dr. Hassan specializes in developing innovative analytical methods for pharmaceutical analysis. His work focuses on determining drugs in pure forms, pharmaceutical formulations, and biological fluids using advanced techniques like spectrofluorimetry, spectrophotometry, voltammetry, and chromatography. He is committed to promoting green analytical chemistry and improving drug quality assurance practices. His research aims to address global challenges in pharmaceutical analysis, ensuring the efficacy and safety of drugs.

Publication Top Notes:

Use of charge-transfer complexation in the spectrophotometric analysis of certain cephalosporins

Authors: GA Saleh, HF Askal, MF Radwan, MA Omar

Citations: 159

Year: 2001

Kinetic spectrofluorimetric determination of certain cephalosporins in human plasma

Authors: MA Omar, OH Abdelmageed, TZ Attia

Citations: 88

Year: 2009

Development and validation of HPLC method for simultaneous determination of amlodipine, valsartan, hydrochlorothiazide in dosage form and spiked human plasma

Authors: EG Samya M, A Osama H, D Sayed M

Citations: 77

Year: 2012

Validated spectrofluorimetric method for determination of selected aminoglycosides

Authors: MA Omar, HM Ahmed, MA Hammad, SM Derayea

Citations: 54

Year: 2015

Development of spectrofluorimetric method for determination of certain aminoglycoside drugs in dosage forms and human plasma through condensation with ninhydrin and phenyl

Authors: MA Omar, MA Hammad, DM Nagy, AA Aly

Citations: 51

Year: 2015

Development and validation of a new spectrofluorimetric method for the determination of some beta-blockers through fluorescence quenching of eosin Y. Application to content

Authors: SM Derayea, MA Omar, MAK Abdel-Lateef, AI Hassan

Citations: 48

Year: 2016

Spectrophotometric and spectrofluorimetric determination of certain diuretics through ternary complex formation with eosin and lead (II)

Authors: MA Omar

Citations: 42

Year: 2010

Kinetic spectrophotometric determination of certain cephalosporins in pharmaceutical formulations

Authors: MA Omar, OH Abdelmageed, TZ Attia

Citations: 37

Year: 2009

Validated spectrophotometric methods for determination of certain aminoglycosides in pharmaceutical formulations

Authors: MA Omar, DM Nagy, MA Hammad, AA Aly

Citations: 35

Year: 2013

Studying the association complex formation of atomoxetine and fluvoxamine with eosin Y and its application in their fluorimetric determination

Authors: SM Derayea, MA Omar, AA Abu-Hassan

Citations: 33

Year: 2018

 

 

 

 

 

 

Dr. Hongjian Qin | Organic Chemistry | Best Researcher Award

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Dr. Hongjian Qin | Organic Chemistry | Best Researcher Award

Dr. Hongjian Qin , Shanghai Institute of Materia Medica, CAS , China

Dr. Hongjian Qin is an accomplished researcher in sustainable and green chemistry, with expertise in drug process development and medicinal administration. He earned his Ph.D. in Organic Chemistry from the Chinese Academy of Sciences, being recognized as an Excellent Graduate in 2024. Dr. Hongjian Qin’s contributions to the field span over three years, emphasizing environmentally friendly pharmaceutical synthesis and active pharmaceutical ingredient (API) development. Currently serving as Research Director at Topharman Company Limited, he continues to advance innovative solutions in drug development. His work includes mentoring students, enhancing resource recovery, and participating in COVID-19 research. With numerous impactful publications, Dr. Hongjian Qin is a dedicated professional committed to promoting sustainability and advancing solutions for global environmental challenges.

Professional Profile:

ScopusĀ 

Summary of Suitability for Award:

Dr. Hongjian Qin is an exemplary candidate for the “Best Researcher Awards,” with a distinguished career in sustainable and green chemistry. His pioneering research in eco-friendly pharmaceutical synthesis has significantly contributed to reducing industrial waste and enhancing process efficiency, aligning with global sustainability objectives. Dr. Hongjian Qin’s innovative work on ligand-free catalysis, large-scale API production, and impurity profiling reflects his expertise in developing practical solutions for complex challenges in organic chemistry and medicinal chemistry. Dr. Hongjian Qinā€™s research excellence, innovative contributions, and global impact make him a highly deserving candidate for the “Best Researcher Awards.” His work not only addresses critical scientific challenges but also fosters sustainable practices in drug development, making a lasting impact on both academia and industry.

šŸŽ“Education:

Dr. Hongjian Qin holds a Ph.D. in Organic Chemistry from the Chinese Academy of Sciences , specializing in process development of drug substances and medicinal administration. His doctoral work was conducted at the Key Laboratory of Plant Resources and Chemistry in Arid Regions, showcasing expertise in sustainable pharmaceutical synthesis. He completed a Master of Engineering in Organic Chemistry from Guangxi University, focusing on the process development of drug substances. Dr. Qin’s academic journey began with a Bachelor of Science in Organic Chemistry from Guangxi University . His educational foundation combines rigorous theoretical knowledge with practical applications, preparing him to address complex challenges in green and sustainable chemistry.

šŸ¢Work Experience:

Dr. Hongjian Qinā€™s professional journey spans over a decade, focusing on pharmaceutical synthesis and sustainable chemistry. As Research Director at Topharman Company Limited (2024ā€“present), he spearheads innovations in active pharmaceutical ingredients (APIs) and emphasizes good manufacturing practices (GMP). Previously, as a Research Assistant at the Shanghai Institute of Materia Medica (2021ā€“2024), he supported COVID-19 research projects, trained students, and enhanced pharmaceutical waste recovery techniques. At the Xinjiang Engineering Research Centre for Key Technologies and Processes of Ethnomedicine (2015ā€“2021), Dr. Hongjian Qin led projects on sustainable API production and industrial resource recovery. His experiences reflect a blend of academic research and industrial application, driving advancements in pharmaceutical science.

šŸ…Awards:Ā 

Dr. Hongjian Qin has received numerous accolades for his contributions to sustainable chemistry. He was honored as an Excellent Graduate in 2024 by the University of Chinese Academy of Sciences for his outstanding academic achievements during his Ph.D. studies. His work on sustainable pharmaceutical synthesis earned him recognition at various national and international conferences. Dr. Hongjian Qin has been instrumental in developing innovative processes for drug substances, garnering appreciation from industrial partners. Additionally, his mentorship roles and administrative contributions at research institutions have been commended, underscoring his commitment to advancing science and education.

šŸ”¬Research Focus:

Dr. Hongjian Qinā€™s research focuses on sustainable and green chemistry, particularly in the process development of drug substances. He has worked extensively on optimizing synthesis methods for pharmaceutical intermediates, reducing waste, and improving efficiency in drug manufacturing. His innovative approaches emphasize the use of eco-friendly reagents and catalysts, aligning with global sustainability goals. His recent work includes developing ligand-free copper-catalyzed cyclization methods, novel iron-catalyzed cross-coupling reactions, and efficient large-scale processes for active pharmaceutical ingredients (APIs). Dr. Hongjian Qin is dedicated to advancing environmentally responsible techniques in pharmaceutical synthesis, ensuring both industrial viability and ecological preservation.

Publication Top Notes:

1. Direct Esterification of Amides by the Dimethylsulfate-Mediated Activation of Amide Cā€“N Bonds

Authors: Qin, H.; Han, Z.; Bonku, E.M.; Shen, J.; Aisa, H.A.

Year: 2024

Citations: 0

2. An Alternative Approach to Synthesize Sildenafil via Improved Copper-Catalyzed Cyclization

Authors: Odilov, A.; Gong, X.; Qin, H.; Yang, F.; Shen, J.

Year: 2024

Citations: 0

3. Impurity Study of Tecovirimat (Open Access)

Authors: Bonku, E.M.; Qin, H.; Odilov, A.; Wang, X.; Shen, J.

Year: 2024

Citations: 1

4. Improved and Ligand-Free Copper-Catalyzed Cyclization for an Efficient Synthesis of Benzimidazoles from o-Bromoarylamine and Nitriles (Open Access)

Authors: Bonku, E.M.; Qin, H.; Odilov, A.; Aisa, H.A.; Shen, J.

Year: 2024

Citations: 2

5. Direct Reductive N-Alkylation of Amines with Carboxylic Esters

Authors: Zhang, Y.; Bonku, E.M.; Yang, X.; Shen, J.; Qin, H.

Year: 2024 (In Press)

Citations: 0

6. Iron-Catalyzed Cross-Coupling Reactions of Alkyl Grignard Reagents with Alkenyl Carbonate

Authors: Qin, H.; Yang, X.; Mintah Bonku, E.; Shen, J.; Akber Aisa, H.

Year: 2024 (In Press)

Citations: 0

7. A Review of the Synthetic Strategies Toward the Antiviral Drug Tecovirimat (Review Article)

Authors: Bonku, E.M.; Qin, H.; Odilov, A.; Zhu, F.; Shen, J.

Year: 2024 (In Press)

Citations: 0

8. An Improved Iodine-Catalyzed Aromatization Reaction and Its Application in the Synthesis of a Key Intermediate of Cannabidiol

Authors: Abduahadi, S.; Bonku, E.M.; Qin, H.; Aisa, H.A.; Shen, J.

Year: 2024 (In Press)

Citations: 0

9. Optimized Synthesis of the Key Intermediate of Telmisartan via the Cyclization of 2-Bromoarylamine with n-Butyronitrile

Authors: Qin, H.; Mintah Bonku, E.; Odilov, A.; Zhu, F.; Aisa, H.A.

Year: 2023

Citations: 1

10. Efficient Large-Scale Process for Tecovirimat via Reactive Distillation for the Preparation of Cycloheptatriene

Authors: Bonku, E.M.; Qin, H.; Odilov, A.; Guma, S.D.; Shen, J.

Year: 2023

Citations: 4

 

 

 

 

 

Mr. Vipin Singh | Bioinorganic chemistry | Best Researcher Award

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Mr. Vipin Singh | Bioinorganic chemistry | Best Researcher AwardĀ 

Mr. Vipin Singh , National Institute of Technology, Tiruchirappalli , India

Vipin Singh, an emerging researcher in chemical sciences, hails from Prayagraj, Uttar Pradesh. He holds a robust academic foundation with degrees in science from the University of Allahabad and is currently pursuing advanced studies at NIT Tiruchirappalli. Vipin’s research interests center on transition metal complexes and their applications in biological systems, particularly in anticancer drug discovery. With a flair for innovation, he has published impactful papers and actively participated in prestigious workshops and conferences. His dedication to fostering knowledge is evident in his hands-on training experiences and contributions to the scientific community. Vipin exemplifies academic excellence and a passion for pushing the frontiers of chemical sciences.

Professional Profile:

Google Scholar ProfileĀ Ā 

Summary of Suitability for Award:

Vipin Singh is a highly suitable candidate for the “Best Researcher Awards,” given his exceptional dedication to advancing chemical sciences through innovative research and active engagement in academia. His work on transition metal complexes and N4-substituted thiosemicarbazones has significant implications for biological and therapeutic applications, particularly in anticancer drug discovery. Vipinā€™s academic rigor is evident from his outstanding educational background and his active participation in hands-on workshops, seminars, and national conferences. His ability to translate theoretical knowledge into impactful research and his published works in high-impact journals demonstrate his scientific acumen and research potential.

šŸŽ“Education:

Vipin Singh’s academic journey reflects a commitment to scientific excellence. He earned his Master of Science , and Bachelor of Science Ā degrees from the University of Allahabad, where he honed his expertise in chemical sciences through rigorous coursework and practical training. Prior to that, he completed his Intermediate , and High School studies at K.P. Intermediate College, Prayagraj, laying a solid foundation in core scientific disciplines. His educational background is marked by a passion for understanding complex chemical systems and applying this knowledge to real-world problems.

šŸ¢Work Experience:

Vipin Singh is a dedicated researcher specializing in the biological applications of transition metal complexes . He has actively participated in workshops and seminars, gaining hands-on training in computational drug design and advanced chemical methodologies. He has engaged with prominent scientists at national conferences , showcasing his findings on innovative chemical approaches. Vipinā€™s experience includes specialized courses in heterogeneous reaction engineeringĀ  and computational chemistry, equipping him with cutting-edge skills to solve challenging problems in chemical sciences.

šŸ…Awards:

Vipin Singh has been recognized for his academic and research achievements . His participation in workshops, including hands-on training in drug design methodologies ,Ā and presentations at national conferences have earned him accolades for his contributions. His stellar academic performance , coupled with active engagement in scientific seminars and symposia , highlights his dedication to advancing chemical sciences. Vipinā€™s honors underline his exceptional potential as a future leader in research and innovation.

šŸ”¬Research Focus:

Vipin Singhā€™s research is centered on exploring the potential of transition metal complexes for biological and therapeutic applications, with a special emphasis on anticancer drug discovery . His work involves synthesizing and analyzing N4-substituted thiosemicarbazones for their biological efficacy in vitro and in silico. Vipin is also passionate about computational chemistry, leveraging advanced methods to solve complex problems, and sustainable solutions in chemical sciences. His interests extend to heterogeneous catalysis , applying innovative reaction engineering techniques for industrial and environmental advancements.

Publication Top Notes:

1. Recent developments on the potential biological applications of transition metal complexes of thiosemicarbazone derivatives
  • Authors:
    V. Singh, V.N.V. Palakkeezhillam, V. Manakkadan, P. Rasin, A.K. Valsan, A. Sreekanth
  • Cited By: 18
  • Year: 2023
  • Journal: Polyhedron 245, 116658
2. Investigation of the anticancer potential of newly synthesized N4-substituted thiosemicarbazones: In silico and in vitro biological approaches
  • Authors:
    V. Singh, J. Haribabu, D. Moraga, J.F. Santibanez, A. Sreekanth
  • Cited By: (Not cited yet as it is a recent publication)
  • Year: 2024
  • Journal: Journal of Molecular Structure, 14076

 

 

 

 

 

Dr. Samira Abozeid | Inorganic Chemistry Award | Women Researcher Award

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Dr. Samira Abozeid | Inorganic Chemistry Award | Women Researcher Award

Dr. Samira Abozeid , Mansoura University , Egypt

Dr. Samira Mohammed Ali Mohammed Abozeid is a Lecturer/Assistant Professor in the Department of Chemistry at Mansoura University and New Mansoura University in Egypt. With expertise in synthesizing metal complexes for advanced applications in MRI contrast agents and nanoparticle-based drug delivery systems, Dr. Abozeid has emerged as a dedicated researcher in the fields of nanomedicine and medical imaging. She holds a Ph.D. in Chemistry from the State University of New York at Buffalo, where she was recognized for her academic excellence and awarded several prestigious fellowships. Dr. Abozeidā€™s work has led to significant publications in high-impact journals, including two articles in Angewandte Chemie. She is also actively engaged in international collaborations and is currently preparing for a postdoctoral position at the Massachusetts Institute of Technology (MIT). Her research contributions are shaping advancements in chemistry and nanotechnology, underscoring her commitment to impactful scientific exploration.

Professional Profile:

Google Scholar

Scopus

Orcid

Summary of Suitability for Award:

Dr. Samira Mohammed Ali Mohammed Abozeid is an exemplary candidate for the Women Researcher Award due to her impactful contributions to the field of chemistry, particularly in nanotechnology and biomedical applications. Her research focuses on synthesizing metal complexes as MRI contrast agents and developing nanoparticle-based drug delivery systems, aiming to advance diagnostic imaging and targeted therapy. With a Ph.D. in Chemistry from the State University of New York at Buffalo, she has published 18 articles, including in prestigious journals like Angewandte Chemie, which reflects her commitment to high-quality research and innovation. Dr. Abozeidā€™s academic achievements are complemented by prestigious awards, such as the James T. Grey Fellowship and the Egyptian Government Scholarship, and her appointment as an ACS-certified reviewer. Her international collaborations and upcoming postdoctoral role at MIT further underscore her dedication to scientific advancement and cross-disciplinary research.

šŸŽ“Education:

Dr. Abozeid completed her Bachelorā€™s and Masterā€™s degrees in Chemistry from Mansoura University, Egypt, where she demonstrated strong academic potential and research aptitude. Her pursuit of further specialization led her to the State University of New York at Buffalo, where she earned her Ph.D. in Chemistry. During her doctoral studies, she focused on synthesizing novel metal complexes for biomedical applications, which enhanced her knowledge in chemical synthesis, nanotechnology, and medical imaging. Supported by the Egyptian Government Scholarship, she excelled academically, receiving accolades such as the James T. Grey Fellowship, Mattern-Tyler Teaching Award, and Speyer Fellowship. Her educational journey has been defined by rigorous research and academic excellence, laying a solid foundation for her innovative work in chemistry. Dr. Abozeidā€™s interdisciplinary education reflects her dedication to advancing research with practical applications in healthcare and diagnostics.

šŸ¢Work Experience:

Dr. Abozeid has been an influential member of the Chemistry Department at Mansoura University, Egypt, where she has contributed to both research and education. She holds dual appointments at Mansoura University and New Mansoura University, collaborating with various research groups on energy applications of metal complexes and drug delivery systems. Her experience includes developing metal complexes and nanoparticles as contrast agents for MRI imaging and as vehicles for targeted drug delivery. She has also undertaken consultancy projects, linking scientific research with industry to address practical needs in Egypt. Her global research engagements include collaborations with international teams, resulting in impactful advancements in nanotechnology. As an ACS-certified reviewer and member of professional societies, she continuously supports scientific rigor in published research. Her upcoming postdoctoral position at MIT further emphasizes her dedication to expanding her research horizon and establishing herself as a leader in chemistry.

šŸ…Awards:

Dr. Abozeidā€™s academic and research excellence has been widely recognized. She received the prestigious Egyptian Government Scholarship (2016ā€“2018) to pursue her Ph.D. at the State University of New York at Buffalo, where her accomplishments earned her the James T. Grey Fellowship in 2020. She was also awarded the Mattern-Tyler Teaching Award and the Speyer Fellowship, both reflecting her dedication to academic rigor and mentorship. In 2023, Dr. Abozeid secured competitive funding for a research project at Mansoura University, underscoring her significant contributions to science. Additionally, she was awarded “Best Specialized Lecture” at several scientific conferences, which highlights her ability to effectively communicate complex scientific ideas. Her awards and honors signify her sustained commitment to high-impact research and academic achievement, marking her as a rising expert in the field of chemistry and biomedical applications.

šŸ”¬Research Focus:

Dr. Abozeidā€™s research centers on the design and synthesis of metal complexes and nanoparticles for advanced biomedical applications. Her work aims to develop efficient MRI contrast agents and nanoparticle-based drug delivery systems that enhance diagnostic imaging and targeted therapy. By creating novel transition metal complexes, she contributes valuable insights into the field of medical imaging, particularly in developing MRI probes that improve image contrast and diagnostic accuracy. Additionally, Dr. Abozeidā€™s research explores liposome-based drug delivery mechanisms for anticancer therapies, focusing on the efficacy and specificity of these treatments. Her interdisciplinary approach integrates chemistry, nanotechnology, and medicine, fostering collaborations that expand the applications of metal complexes in healthcare. Through this research, Dr. Abozeid addresses critical challenges in non-invasive diagnostics and targeted treatment, advancing both fundamental science and its practical applications in nanomedicine.

Publication Top Notes:

  • “Two new inner-sphere Pt (II) thiosemicarbazone Schiff base complexes immobilized into magnetic Nanoparticles: Synthesis, Characterization, and biological investigations”
  • “A novel fluorescent probe based imprinted polymer-coated magnetite for the detection of imatinib leukemia anti-cancer drug traces in human plasma samples”
  • “Fe(III) T1 MRI Probes Containing Phenolate or Hydroxypyridine-Appended Triamine Chelates and a Coordination Site for Bound Water”
    • Citations: 5
  • “Co (ii) complexes of tetraazamacrocycles appended with amide or hydroxypropyl groups as paraCEST agents”
    • Citations: 3
  • “Comparison of phosphonate, hydroxypropyl and carboxylate pendants in Fe (III) macrocyclic complexes as MRI contrast agents”
    • Citations: 18