Dr. Sohail Ahmad Khan | Thermodynamics | Young Scientist Award

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Dr. Sohail Ahmad Khan | Thermodynamics | Young Scientist Award

 Thermodynamics | Research Associate at Quaid I Azam University Islamabad, Pakistan

Dr. Sohail Ahmad Khan is a distinguished mathematician specializing in applied mathematics and fluid mechanics. He is currently affiliated with the Department of Mathematics at Quaid-i-Azam University, Islamabad, Pakistan. With a remarkable research portfolio, he has contributed extensively to numerical simulations, mathematical modeling, and fluid mechanics . His groundbreaking work has been recognized globally, with multiple prestigious awards, including the World’s Top 2% Global Scientists Influence Ranking by Stanford University in 2022 and 2024. An active academician, he has served as a reviewer for 120+ high-impact journals and played a key role in organizing international conferences. Dr. Khan’s research, spanning 127+ ISI-indexed publications and a cumulative impact factor exceeding 500, has garnered 2,515+ citations with an H-index of 30. His contributions continue to shape modern applied mathematics, making him a leading figure in computational fluid dynamics and mathematical modeling.

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Summary of Suitability for Award:

Dr. Sohail Ahmad Khan, a distinguished researcher in applied mathematics, has made remarkable contributions to fluid mechanics, computational mathematics, and numerical analysis. His extensive research output includes 127 ISI-indexed publications, an H-index of 30, and over 2,515 citations, demonstrating significant impact in his field. He has been recognized among the World’s Top 2% Scientists by Stanford University in 2022 and 2024, a testament to his global influence. His work has garnered prestigious accolades, including the Best Researcher Gold Medal and multiple International Research Awards on New Science Inventions. Given his exceptional research contributions, international recognition, and academic leadership, Dr. Sohail Ahmad Khan is highly suitable for the “Young Scientist Award.” His groundbreaking work in applied mathematics and fluid mechanics, coupled with his impressive publication record and global impact, makes him a strong contender for this prestigious recognition.

🎓Education:

Dr. Sohail Ahmad Khan pursued his academic journey in mathematics from top institutions in Pakistan. He earned his Ph.D. in Applied Mathematics (2024) from Quaid-i-Azam University, Islamabad, focusing on advanced fluid mechanics and numerical simulations. Prior to this, he completed an MPhil in Applied Mathematics (2019) from the same institution, where he developed expertise in computational modeling. He obtained his MSc in Applied Mathematics (2017) from Quaid-i-Azam University, further strengthening his analytical and theoretical knowledge. His foundational education in mathematics and physics began with a BSc in Mathematics & Physics (2014) from University of Science and Technology, Bannu, Pakistan. Dr. Khan’s academic excellence has been recognized through multiple scholarships and fellowships, including the Chief Minister Education Endowment Scholarship (KPK Government) and MPhil and PhD Fellowships from Quaid-i-Azam University. His rigorous educational background has laid a strong foundation for his impactful research career.

🏢Work Experience:

Dr. Sohail Ahmad Khan is an experienced mathematician and educator specializing in applied mathematics. He has been actively involved in teaching undergraduate courses, including Fluid Mechanics, Calculus, Linear Algebra, Integral Equations, and Mathematical Methods for Statistics at Quaid-i-Azam University. As an academic researcher, he has authored 127+ ISI-indexed publications and reviewed manuscripts for 120+ high-impact international journals. He has played a significant role in organizing international conferences, including the 9th International Conference on Recent Developments in Fluid Mechanics, Environmental Science, and Renewable Energy (2023). His research collaborations extend across multiple domains, focusing on numerical simulations, computational modeling, and fluid dynamics. He has also contributed to the International Symposium on Climate Change (2024) and the 25th Conference of the Islamic World Academy of Sciences (IAS) on Water-Energy-Food-Ecosystem Nexus (2024). Through his teaching, research, and editorial contributions, Dr. Khan continues to make a profound impact in applied mathematics.

🏅Awards: 

Dr. Sohail Ahmad Khan has received numerous prestigious awards in recognition of his outstanding contributions to applied mathematics and fluid mechanics. He was listed in the World’s Top 2% Global Scientists Influence Ranking by Stanford University (2022 & 2024). His groundbreaking work has earned him the International Research Award for New Science Inventions in the Young Scientist and Best Researcher categories. During his Ph.D., he was honored with the Best Researcher Gold Medal by the Fluid Mechanics Group at Quaid-i-Azam University. His article was recognized as a Top Cited Paper in ZAMM Journal of Applied Mathematics and Mechanics (2022-2023). Additionally, he was awarded the Chief Minister Education Endowment Scholarship by the KPK Government for academic excellence. His contributions extend beyond research, as he has been a key participant in multiple high-profile international conferences addressing climate change, environmental science, and applied mathematics.

🔬Research Focus:

Dr. Sohail Ahmad Khan’s research primarily focuses on applied mathematics, fluid mechanics, and numerical simulations. His work involves the modeling of fluid flow, heat transfer, and computational techniques for solving real-world engineering problems. His expertise extends to boundary layer theory, magnetohydrodynamics (MHD), nanofluids, and biofluid dynamics. A significant aspect of his research explores the influence of thermal radiation, entropy generation, and nonlinear convection in fluid mechanics. He has made substantial contributions to the development of mathematical models for complex physical phenomena, with applications in environmental science, renewable energy, and climate change analysis. His 127+ ISI-indexed publications in high-impact Q1 journals highlight his innovative contributions, with a cumulative impact factor exceeding 500. Dr. Khan continues to bridge the gap between theoretical and applied mathematics, working on computational techniques for solving partial differential equations (PDEs) and integral equations in fluid dynamics and thermal analysis.

Publication Top Notes:

Retinal microglial activation and inflammation induced by amadori-glycated albumin in a rat model of diabetes

Citations: 219

The HOPE (Heart Outcomes Prevention Evaluation) study: the design of a large, simple randomized trial of an angiotensin-converting enzyme inhibitor (ramipril) and vitamin E in …

Citations: 189

Mediation of cannabidiol anti-inflammation in the retina by equilibrative nucleoside transporter and A2A adenosine receptor

Citations: 184

Theoretical investigation of Ree–Eyring nanofluid flow with entropy optimization and Arrhenius activation energy between two rotating disks

Citations: 173

Trends in bariatric surgery from 2008 to 2012

Citations: 136

Melting heat transportation in radiative flow of nanomaterials with irreversibility analysis

Citations: 119

Drug nanodelivery systems based on natural polysaccharides against different diseases

Citations: 112

Optimizing the theoretical analysis of entropy generation in the flow of second grade nanofluid

Citations: 111

Computational analysis of heat transfer in mixed convective flow of CNTs with entropy optimization by a curved stretching sheet

Citations: 86

Prevalence of obesity in Indian women

Citations: 86

 

 

 

 

 

Assoc. Prof. Dr .Wanisa Abdussalam-Mohammed | Nanobiotechnology | Best Paper Award

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Assoc. Prof. Dr. Wanisa Abdussalam-Mohammed | Nanobiotechnology | Best Paper Award

Assoc. Prof. Dr. Wanisa Abdussalam – Mohammed| Nanobiotechnology | Tripoli University | Libya

Dr. Wanisa Abdussalam-Mohammed is an Associate Professor in the Department of Chemical Engineering at the University of Tripoli, Libya. She holds a Ph.D. in Bio-Nanotechnology from Swansea University, UK, specializing in engineered metal nanodevices for biomedical applications. Her academic journey began with a Bachelor’s and Master’s in Organic Chemistry from Sebha University, Libya. With over two decades of experience in academia, she has served as a Lecturer, Assistant Professor, and Postdoctoral Researcher in institutions across Libya and the UK. She has been an active contributor to international conferences, serving as the President of the Scientific Committee for the First International Conference on Nano Science and Nano Technology (2023) and a committee member for the Sixth International Conference on Science and Technology. Her research interests lie in nanomedicine, organic synthesis, and biomedical applications of nanoparticles. She has guided numerous students and published extensively in high-impact journals.

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Summary of Suitability for Award:

Dr. Wanisa Abdussalam-Mohammed is a distinguished researcher in the field of bio-nanotechnology and chemical engineering, with significant contributions to nanomedicine, organic synthesis, and biomedical applications. Her research involves the development of engineered metal nanodevices for therapeutic and biomedical use, making it highly impactful in medicine, pharmaceuticals, and materials science. Her Ph.D. work at Swansea University (UK) focused on novel nanomaterials, and she has attended multiple advanced courses in nanotechnology, toxicology, and biomedical applications. Based on her extensive research experience, international collaborations, and expertise in nanotechnology, Dr. Wanisa Abdussalam-Mohammed appears to be a strong candidate for the “Best Paper Award”. If the paper under consideration includes her work on engineered nanodevices for biomedical applications, toxicology of nanoparticles, or advancements in nanomedicine, it would likely be a compelling contender due to its scientific significance, practical applications, and novelty in the field.

🎓Education:

Dr. Wanisa Abdussalam-Mohammed holds a Ph.D. in Bio-nanotechnology from Swansea University, UK (2017), where she specialized in engineered metal nanodevices for therapeutic and biomedical applications. She earned her Master’s degree in Organic Chemistry from Sebha University, Libya (2005), focusing on the synthesis of heterocyclic compounds and bioactive ligands. She completed her Bachelor’s degree in Chemistry from the same university in 1998. Throughout her academic journey, Dr. Wanisa pursued numerous professional training programs, including advanced courses in nanotechnology, nanomedicine, and spectroscopy techniques. She also completed intensive English language training at institutions in Libya and the UK. Additionally, she undertook specialized technical training in Dynamic Light Scattering (DLS), ATR-FTIR, mass spectrometry, and nuclear magnetic resonance (NMR) at Swansea and Bristol Universities. Her strong academic foundation and interdisciplinary expertise in chemistry, nanotechnology, and biomedical sciences have contributed to her impactful research and teaching career.

🏢Work Experience:

Dr. Wanisa Abdussalam-Mohammed has over two decades of experience in teaching, research, and laboratory supervision. She began her career as a Teaching Assistant at Sebha University (1999-2005), where she also collaborated in a medical laboratory. She later became a Lecturer at Sebha University (2006-2012), teaching organic chemistry and supervising research projects. She worked as a Laboratory Demonstrator at Swansea University, UK (2014-2017), training undergraduate and MSc students in nanotechnology research. In 2018, she completed a Postdoctoral Fellowship in Chemistry at Swansea University, working with Prof. Owen Guy. She served as an Assistant Professor at Sebha University (2019-2023) and collaborated with Tripoli University in Chemical Engineering before securing a permanent faculty position at the University of Tripoli in 2023, where she became an Associate Professor in September 2023. She has also been actively involved in scientific conferences and postgraduate research coordination.

🏅Awards: 

Dr. Wanisa Abdussalam-Mohammed has received multiple recognitions for her academic excellence and research contributions. In 2023, she was appointed President of the Scientific Committee for the First International Conference on Nano Science and Nano Technology, highlighting her leadership in advancing nanotechnology research. She was also a Member of the Scientific Committee for the Sixth International Conference on Science and Technology (2023). Throughout her academic career, she has been awarded prestigious research fellowships and has contributed to high-impact research in nanomedicine and chemical engineering. Additionally, she has received recognition for her contributions to postgraduate education as a Postgraduate Coordinator at Sebha University (2021-2022). Her expertise in bio-nanotechnology, spectroscopy, and advanced materials has earned her international collaborations and invitations to prestigious scientific events. These achievements underscore her commitment to scientific innovation, education, and leadership in the field of nanotechnology and chemical sciences.

🔬Research Focus:

Dr. Wanisa Abdussalam-Mohammed’s research focuses on bio-nanotechnology, nanomedicine, and chemical engineering, with a specialization in engineered metal nanodevices for biomedical applications. Her Ph.D. research at Swansea University, UK, explored novel nanomaterials for therapeutic use, bridging nanotechnology and biomedical sciences. She has extensive expertise in organic synthesis, heterocyclic compounds, bioactive ligands, and nanoparticle-based drug delivery systems. Additionally, she investigates nanoparticle toxicity, safety assessments, and their applications in medicine, environmental science, and chemical industries. She has conducted advanced spectroscopic studies using ATR-FTIR, UV-Vis, Dynamic Light Scattering (DLS), and Mass Spectrometry, contributing to a deeper understanding of nanomaterials and their interactions with biological systems. Her research also extends to nanotechnology-based sensors, catalysis, and sustainable chemical processes. Through her interdisciplinary work, Dr. Wanisa aims to develop innovative nanomaterials with real-world applications in healthcare, diagnostics, and industrial chemistry.

Publication Top Notes:

Green chemistry: principles, applications, and disadvantages

Citations: 172

Comparison of chemical and biological properties of metal nanoparticles (Au, Ag), with metal oxide nanoparticles (ZnO-NPs) and their applications

Citations: 51

Review of therapeutic applications of nanotechnology in medicine field and its side effects

Citations: 41

Review of phytochemical and medical applications of Annona muricata Fruits

Citations: 32

Recent Biological Applications and Chemical Synthesis of Thiohydantoins

Citations: 24

Highly stable noble metal nanoparticles dispersible in biocompatible solvents: synthesis of cationic phosphonium gold nanoparticles in water and DMSO

Citations: 24

Synthesis and molecular docking studies of some thiohydantoin derivatives as potential anticancer and antimicrobial agents

Citations: 16

Biofabrication of Silver Nanoparticles Using Teucrium Apollinis Extract: Characterization, Stability, and Their Antibacterial Activities

Citations: 13

Study on the effects of biologically active amino acids on the micellization of anionic surfactant sodium dodecyl sulfate (SDS) at different temperatures

Citations: 7

Evaluation of Antimicrobial and Antioxidant Activities of Psidium guajava L growing in Libya

Citations: 7

 

 

Prof. Dr. Hauh-Jyun Chen | Environmental Chemistry | Best Researcher Award

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Prof. Dr. Hauh-Jyun Chen | Environmental Chemistry | Best Researcher Award

Prof. Dr. Hauh-Jyun Chen | Environmental Chemistry | Dept Chemistry and Biochemistry at National Chung Cheng University , Taiwan 

Dr. Hauh-Jyun Candy Chen is a Distinguished Professor in the Department of Chemistry and Biochemistry at National Chung Cheng University, Taiwan. She is a leading expert in organic chemistry, chemical carcinogenesis, and mass spectrometric analysis of biomolecules. Dr. Chen earned her Ph.D. in Organic Chemistry from the State University of New York at Stony Brook in 1988 under the supervision of Professor Iwao Ojima. Her research focuses on using mass spectrometry for biomarker identification in cancer and oxidative stress-related diseases. She has made significant contributions to understanding post-translational modifications in hemoglobin and DNA, particularly in relation to cigarette smoking and carcinogen exposure. Dr. Chen has held various academic and research positions in the U.S. and Taiwan, including at the American Health Foundation and the National Institutes of Health. She has published extensively in high-impact journals and is recognized internationally for her pioneering work in analytical toxicology.

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Summary of Suitability for Award:

Professor Hauh-Jyun Candy Chen is an outstanding researcher in the field of organic chemistry and biochemical research, with a strong focus on mass spectrometry-based biomonitoring, chemical exposome analysis, and biomarker identification related to cancer and smoking-related diseases. Her academic credentials, extensive research experience, and significant scientific contributions make her a strong candidate for the “Best Researcher Award. “Professor Hauh -J yun Candy Chen’s distinguished career, pioneering research in biomolecular analysis, and commitment to scientific advancements in chemistry and biochemistry make her an exceptional candidate for the “Best Researcher Award.” Her work not only deepens the understanding of chemical exposures and their health effects but also has significant translational potential in clinical diagnostics and public health. Given her research impact, leadership in the field, and continuous contributions to high-quality publications, she is highly suitable for this prestigious recognition.

🎓Education:

Dr. Hauh-Jyun Candy Chen completed her Ph.D. in Organic Chemistry at the State University of New York at Stony Brook in 1988. Her dissertation, titled New and Effective Routes to Optically Pure Aromatic Amino Acids, Peptides, and Their Derivatives via Chiral β-Lactam Intermediates, was conducted under the guidance of Professor Iwao Ojima. She earned her Bachelor of Science degree in Chemistry from National Cheng Kung University, Taiwan, in 1983. Dr. Chen’s academic training provided her with a strong foundation in organic synthesis, bioanalytical chemistry, and mass spectrometry. Her interdisciplinary expertise has allowed her to develop innovative methodologies for studying chemical modifications in biomolecules, particularly in relation to disease biomarkers and environmental toxicology. Throughout her career, Dr. Chen has continuously expanded her research scope, integrating advanced analytical techniques to investigate the biochemical impacts of carcinogens, oxidative stress, and metabolic disorders.

🏢Work Experience:

Dr. Hauh-Jyun Candy Chen has over three decades of research and teaching experience in organic chemistry and bioanalytical sciences. She has been a Distinguished Professor at National Chung Cheng University since 2020, where she previously served as Professor (2004-2020), Associate Professor (1999-2004), and Assistant Professor (1997-1999). Before joining academia, she was an Associate Research Scientist at the American Health Foundation (1994-1997), where she worked on nucleic acid chemistry and chemical carcinogenesis. From 1992 to 1994, she was a Senior Research Fellow at the same institution. She also conducted postdoctoral research at the Rockefeller University (1989-1991), the Picower Institute for Medical Research (1991), and the National Institutes of Health (1988-1989). Her extensive research in analytical toxicology and mass spectrometry has advanced the understanding of oxidative and carcinogenic modifications in biomolecules, leading to breakthroughs in biomarker discovery for cancer and exposure assessment.

🏅Awards: 

Dr. Hauh-Jyun Candy Chen has received numerous awards and recognitions for her outstanding contributions to analytical chemistry and toxicology. Her research on post-translational modifications in hemoglobin and the development of mass spectrometric methodologies has been widely recognized. She has been invited to present at international conferences on biomolecular analysis and chemical carcinogenesis. Dr. Chen has received multiple research grants from prestigious funding agencies, reflecting the impact and significance of her work. Her publications in high-impact journals have garnered substantial citations, further establishing her as a leading figure in analytical toxicology. As a dedicated mentor, she has supervised numerous graduate students and postdoctoral researchers, many of whom have gone on to successful academic and industry careers. Her contributions to environmental health, biomarker discovery, and disease diagnostics continue to shape the field of chemical research and biomedical science.

🔬Research Focus:

Professor Hauh-Jyun Candy Chen’s research primarily focuses on the analysis of chemical exposures and their impact on human health using advanced mass spectrometry techniques. Her work emphasizes the identification and quantification of biomarkers for diseases linked to environmental and lifestyle factors, particularly in the context of cancer and smoking-related illnesses. A significant part of her research explores oxidative and post-translational modifications in proteins, such as hemoglobin, resulting from exposure to toxic chemicals like acrolein and malondialdehyde. Through high-resolution mass spectrometry, Professor Chen investigates how these modifications can serve as biomarkers for disease diagnosis and progression, particularly in cancer patients and smokers. Her research also includes studies on the chemical exposome, connecting environmental exposures to human health outcomes. With a focus on precision biomonitoring and toxicology, her work aims to improve disease prevention, early detection, and therapeutic strategies, providing valuable insights into the relationship between chemical exposures and chronic diseases.

Publication Top Notes:

Multiple Oxidative Modifications on Hemoglobin Are Elevated in Breast Cancer Patients as Measured by Nanoflow Liquid Chromatography-Tandem Mass Spectrometry

Authors: H.J.C. Chen, Hauh Jyun Candy; S. Hu, Shunxiang; C. Tu, Chiwen

Year: 2025

Citations: 0

Connecting Chemical Exposome to Human Health Using High-Resolution Mass Spectrometry-Based Biomonitoring: Recent Advances and Future Perspectives

Authors: Y. Chen, Yuanchieh; J.F. Hsu, Jing Fang; C. Chang, Chihwei; H.J.C. Chen, Hauh Jyun Candy; P. Liao, Pao-Chi

Year: 2023

Citations: 15

Response to “Malondialdehyde-Induced Post-Translational Modification of Human Hemoglobin”

Authors: H.J.C. Chen, Hauh Jyun Candy; Y. Liao, Yanling

Year: 2023

Citations: 0

Mass Spectrometry Analysis of DNA and Protein Adducts as Biomarkers in Human Exposure to Cigarette Smoking: Acrolein as an Example

Authors: H.J.C. Chen, Hauh Jyun Candy

Year: 2023

Citations: 15

Characterization and Quantification of Acrolein-Induced Modifications in Hemoglobin by Mass Spectrometry─Effect of Cigarette Smoking

Authors: H.J.C. Chen, Hauh Jyun Candy; S. Cheng, Shuwei; N. Chen, Naiying; D. Wu, Dengchyang

Year: 2022

Citations: 6

Malondialdehyde-Induced Post-translational Modifications in Hemoglobin of Smokers by NanoLC-NSI/MS/MS Analysis

Authors: H.J.C. Chen, Hauh Jyun Candy; C. Chen, Chauyi; Y. Fang, Yahsuan; K. Hung, Kaiwei; D. Wu, Dengchyang

Year: 2022

Citations: 10

 

 

Dr. Jean Moto Ongagna | Theoretical Chemistry | Catalysis Award

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Dr. Jean Moto Ongagna | Theoretical Chemistry | Catalysis Award

Dr. Jean Moto Ongagna | Theoretical Chemistry | Lecturer – University of Douala-Cameroon , Cameroon

Dr. Jean Moto Ongagna is a Cameroonian researcher specializing in Theoretical chemistry and Computational Chemistry . He obtained his Ph.D. from the University of Douala in 2021. His expertise spans Density Functional Theory (DFT), Pharmacokinetics (ADMET), Molecular Docking, Molecular Dynamics (MD), and ab initio Molecular Dynamics (ADMP). Dr. Ongagna has contributed significantly to computational chemistry, particularly in studying metal complexes, chemical bonding, and reaction mechanisms. He has participated in prestigious international conferences and workshops, presenting groundbreaking research on chemical bonding interactions. With numerous publications in high-impact journals such as RSC Advances and the International Journal of Quantum Chemistry, his work advances the understanding of transition metal complexes and their applications. He actively collaborates with researchers worldwide and is dedicated to developing computational tools for chemical and biological systems.

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Summary of Suitability for Award:

Dr. Jean Moto Ongagna is an outstanding candidate for the “Catalysis Awards”, given his significant contributions to computational catalysis and theoretical chemistry. His research extensively applies Density Functional Theory (DFT), Quantum Chemical Calculations, and Molecular Dynamics (MD) to investigate transition metal complexes, non-standard chemical bonding, and catalytic reaction mechanisms. His studies provide deep insights into metal-ligand interactions, catalytic efficiency, and reaction pathways, which are fundamental for designing novel catalytic systems. Dr. Jean Moto Ongagna’s research in computational catalysis, transition metal chemistry, and theoretical modeling aligns perfectly with the objectives of the “Catalysis Awards”. His work advances the understanding of catalyst behavior, reaction mechanisms, and molecular interactions, making a substantial impact on modern catalysis research. His ability to integrate quantum chemistry tools with catalytic design positions him as a highly suitable candidate for this prestigious recognition.

🎓Education:

Dr. Jean Moto Ongagna pursued his higher education at the University of Douala, Cameroon. He earned a Ph.D. in Theoretical and Computational Chemistry (2021), focusing on Density Functional Theory (DFT) and molecular simulations. In 2016, he completed his Master’s degree in the same field, where he explored the computational analysis of metal-ligand interactions. His Bachelor’s degree in Physical Chemistry (2013) laid the foundation for his research on quantum chemistry and molecular modeling. Before university, he completed his GCE Advanced Level (Baccalauréat D) in 2008 at Laic Private College “La Liberté” in Douala. His education equipped him with expertise in quantum chemistry, molecular docking, and theoretical modeling, enabling him to contribute to cutting-edge research. Throughout his academic journey, he attended specialized workshops and conferences to enhance his skills in computational chemistry, continuously refining his expertise in quantum simulations and advanced chemical theories.

🏢Work Experience:

Dr. Jean Moto Ongagna has extensive experience in Theoretical chemistry and Computational Chemistry, with expertise in Density Functional Theory (DFT), Molecular Docking, Pharmacokinetics (ADMET), and ab initio Molecular Dynamics (ADMP). He has actively participated in international conferences, presenting research on transition metal complexes, chemical bonding, and molecular interactions. He has contributed to significant projects involving the computational study of catalysts, biomolecular interactions, and pharmaceutical compounds. Dr. Ongagna has also collaborated with renowned institutions and researchers worldwide, publishing extensively in high-impact journals. His research experience includes developing and applying quantum chemical tools for investigating metal-ligand interactions and reaction mechanisms. He has been involved in multiple computational chemistry workshops, enhancing his knowledge of secondary metabolite discovery, quantum topology, and electronic structure theory. His contributions have led to a deeper understanding of non-standard chemical bonding and have implications for catalysis, drug design, and materials science.

🏅Awards: 

Dr. Jean Moto Ongagna has received multiple recognitions for his contributions to Theoretical and Computational Chemistry. He has been invited as a speaker at international conferences, including the 4th Commonwealth Chemistry Posters (2023) and the Virtual Conference on Chemistry and Its Applications (2021, 2022). His research on transition metal complexes and quantum chemistry has been published in high-impact journals such as RSC Advances and the International Journal of Quantum Chemistry. He has received accolades for his computational investigations on catalytic and biomolecular systems, contributing to the advancement of quantum chemical methodologies. His participation in scientific workshops at the University of Buea (Cameroon) and Technische Universität Dresden (Germany) further highlights his academic excellence. His continuous engagement in international scientific discussions and collaborations has strengthened his reputation as a leading researcher in quantum chemistry and molecular modeling.

🔬Research Focus:

Dr. Jean Moto Ongagna’s research focuses on Theoretical and Computational Chemistry, particularly Density Functional Theory (DFT), Quantum Chemical Calculations, Molecular Docking, Pharmacokinetics (ADMET), and Molecular Dynamics (MD). He specializes in studying transition metal complexes, non-standard chemical bonds, and catalytic reactions. His work involves topological analysis of chemical interactions using advanced computational techniques such as Quantum Theory of Atoms in Molecules (QTAIM), Energy Decomposition Analysis (EDA), and Natural Bond Orbital (NBO) analysis. He has made significant contributions to understanding palladium complexes, Diels–Alder reactions, and bioactive compounds. His research extends to computational drug discovery, antimicrobial compounds, and bioinorganic chemistry, aiming to bridge the gap between theoretical modeling and experimental applications. By integrating quantum chemical methods with molecular simulations, his studies provide valuable insights into reaction mechanisms, electronic structures, and potential applications in pharmaceuticals, catalysis, and material science.

Publication Top Notes:

Deciphering the Influence of Alkylene Bridged and Chelating Mode on Pd—C and Pd—X (X = Cl, Br, and I) Bonding Interaction Within Bis‐(NHC)‐Palladium Complexes Using Quantum Chemistry Tools

Authors: Gaël Mouzong D’Ambassa, Jean Moto Ongagna, Adjieufack Abel Idrice, Désiré Bikele Mama

Year: 2024

Computational Exploration of the Impact of Low‐Spin and High‐Spin Ground State on the Chelating Ability of Dimethylglyoxime Ligand on Dihalo Transition Metal: A QTAIM, EDA, and CDA Analysis

Authors: Daniel Lissouck, Suzane Leonie Djendo Mazia, Gaël Mouzong D’Ambassa, Jean Moto Ongagna

Year: 2024

Deciphering the Influence of PdII and PdIV Oxidation States on Non-Standard Chemical Bonds Within Bis(N-Heterocyclic Carbene) Complexes: Insights from DFT

Authors: Gaël Mouzong D’Ambassa, Jean Moto Ongagna, Adjieufack Abel Idrice, Désiré Bikele Mama

Year: 2024

Exploring the Mechanism of the Intramolecular Diels–Alder Reaction of (2E,4Z,6Z)-2(allyloxy)cycloocta-2,4,6-trien-1-one Using Bonding Evolution Theory

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2023

In Vitro and In Silico Studies of Antibacterial Activities of Secofriedelane Derivatives from Senna alata (L) Roxb

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2023

How a Chromium Tricarbonyl Complex Catalyzes the [3 + 2] Cycloaddition Reaction of N-Substituted Phenylnitrones with Styrene: A Molecular Electron Density Theory Analysis

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2023

Insight into the Antioxidant and Antiradical Properties of Colorotane Sesquiterpenes Extracted from Warburgia ugandensis: Theoretical Evaluation

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2021

Topological Unraveling of the [3+2] Cycloaddition (32CA) Reaction Between N-Methylphenylnitrone and Styrene Catalyzed by the Chromium Tricarbonyl Complex Using Electron Localization Function and Catastrophe Theory

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2021

B3LYP, M06 and B3PW91 DFT Assignment of nd8 Metal-Bis-(N-Heterocyclic Carbene) Complexes

Authors: Jean Moto Ongagna, Gaël Mouzong D’Ambassa

Year: 2020

 

 

 

Dr. Yan Xue | Environmental Chemistry | Sustainable Chemistry Award

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Dr. Yan Xue | Environmental Chemistry | Sustainable Chemistry Award

Dr. Yan Xue , Nanjing Agricultural University , China

Dr. Yan Xue is a researcher at Nanjing Agricultural University, specializing in environmental nanomaterials. His research focuses on the high-value utilization of green composite nanomaterials derived from modified graphene/graphene-like biochar-based materials. Dr. Xue explores real-time environmental monitoring, remediation of complex environmental conditions, and the development of energy storage devices such as supercapacitors and ionic batteries. His work aligns with global sustainability goals, emphasizing waste-to-waste treatment strategies and eco-friendly material applications. He has contributed significantly to the fields of electrocatalysis, intelligent energy management, and lignocellulose conversion, publishing multiple high-impact research papers.

Professional Profile : 

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Summary of Suitability for Award:

Dr. Yan Xue is an exceptional candidate for the “Sustainable Chemistry Award” due to his pioneering research in environmental nanomaterials and green chemistry applications. His work focuses on the high-value utilization of biomass-derived functional materials, aligning perfectly with the principles of sustainability, circular economy, and green chemistry. He has contributed significantly to waste-to-waste treatment strategies, converting agricultural and industrial biomass into high-performance materials for environmental remediation, electrochemical sensing, and energy storage applications. His research also supports carbon neutrality and sustainable energy solutions, making a strong impact on global environmental goals. Dr. Yan Xue’s contributions to sustainable chemistry, nanotechnology, and green energy solutions demonstrate scientific excellence and real-world impact. His research addresses critical environmental challenges through eco-friendly material synthesis, pollutant remediation, and sustainable energy storage. Given his innovative approach, interdisciplinary expertise, and commitment to green chemistry, he is a highly suitable candidate for the “Sustainable Chemistry Award”.

🎓Education:

Dr. Yan Xue pursued his academic journey with a strong focus on environmental sciences and materials chemistry. He obtained his doctoral degree from Nanjing Agricultural University, where he specialized in graphene-based biochar nanomaterials. His education was rooted in green chemistry, electrochemical energy storage, and sustainable material applications. His thesis emphasized the modification of biochar-derived nanomaterials for enhanced environmental performance and energy conversion efficiency. With a deep interest in sustainable chemistry and intelligent energy systems, Dr. Xue’s academic training laid a solid foundation for his ongoing research in eco-friendly functional materials.

🏢Work Experience:

Dr. Yan Xue has extensive research experience in high-value biomass utilization, electrocatalysis, and green energy applications. His expertise includes preparing and functionalizing graphene-based nanomaterials for energy storage and environmental monitoring. He has worked on tunable biochar modifications for real-time sensing and remediation of pollutants. Additionally, Dr. Xue has contributed to the development of bio-based energy devices, including supercapacitors and ionic batteries. His interdisciplinary approach integrates materials chemistry, nanotechnology, and environmental sciences to develop innovative solutions for sustainable energy and pollution control.

🏅Awards: 

Dr. Yan Xue has been recognized for his contributions to green materials research and environmental nanotechnology. His work in waste-derived nanomaterials has received accolades in academic and industrial settings. He has been cited in high-impact journals, reflecting his significant contributions to sustainable chemistry and advanced materials. His research in biochar-based nanomaterials has positioned him among emerging leaders in eco-friendly energy storage solutions.

🔬Research Focus:

Dr. Yan Xue’s research primarily focuses on environmental nanomaterials, emphasizing the high-value utilization of biomass-derived functional materials for sustainable applications. His work explores the synthesis, modification, and application of graphene/graphene-like biochar-based nanomaterials to address critical environmental challenges. He specializes in the development of advanced electrochemical sensors, pollutant remediation systems, and green energy storage solutions, integrating principles of electrocatalysis, intelligent energy management, and nanotechnology. Dr. Xue is particularly interested in waste-to-waste treatment strategies, converting agricultural and industrial biomass into high-performance nanomaterials for supercapacitors, ionic batteries, and pollutant detection systems. His research also extends to functional nanocomposites, such as metallic-like boron-doped biochar, porphyrin-modified nanocatalysts, and hybrid carbon nanostructures, for enhanced electrocatalytic performance and environmental sensing. By merging materials chemistry, environmental science, and nanotechnology, Dr. Xue contributes to the development of eco-friendly, cost-effective, and scalable solutions for sustainable energy and pollution control.

Publication Top Notes:

Enhancing capacitive performance through solvent-coupled two-step carbonization of cotton stalk biochar with tunable melamine doping: Deciphering the redox activity of pyrrolic nitrogen

Authors: Yan Xue, [Additional authors not specified]

Journal: International Journal of Hydrogen Energy

Publication Date: March 2025

DOI: 10.1016/j.ijhydene.2025.02.057

New insights into temperature-induced mechanisms of copper adsorption enhancement on hydroxyapatite-in situ self-doped fluffy bread-like biochar

Authors: Yan Xue, [Additional authors not specified]

Journal: Chemical Engineering Journal

Publication Date: January 2024

DOI: 10.1016/j.cej.2023.147657

Efficiently catalytic degradation of tetracycline via persulfate activation with plant-based biochars: Insight into endogenous mineral self-template effect and pyrolysis catalysis

Authors: Yan Xue, [Additional authors not specified]

Journal: Chemosphere

Publication Date: October 2023

DOI: 10.1016/j.chemosphere.2023.139309

Metallic-like boron-modified bio-carbon electrodes for simultaneous electroanalysis for Cd²⁺, Pb²⁺ and Cu²⁺: Theoretical insight into the role of CxBOy(H)

Authors: Yan Xue, [Additional authors not specified]

Journal: Carbon

Publication Date: October 2023

DOI: 10.1016/j.carbon.2023.118350

Highly selective colorimetric platinum nanoparticle-modified core-shell molybdenum disulfide/silica platform for selectively detecting hydroquinone

Authors: Yan Xue, [Additional authors not specified]

Journal: Advanced Composites and Hybrid Materials

Publication Date: August 2023

DOI: 10.1007/s42114-023-00719-z

Pt deposited on sea urchin-like CuCo₂O₄ nanowires: Preparation, the excellent peroxidase-like activity and the colorimetric detection of sulfide ions

Authors: Yan Xue, [Additional authors not specified]

Journal: Journal of Environmental Chemical Engineering

Publication Date: April 2022

DOI: 10.1016/j.jece.2022.107228

Porphyrin-Modified NiS₂ Nanoparticles Anchored on Graphene for the Specific Determination of Cholesterol

Authors: Yan Xue, [Additional authors not specified]

Journal: ACS Applied Nano Materials

Publication Date: November 26, 2021

DOI: 10.1021/acsanm.1c02318

V₂O₅-montmorillonite nanocomposites of peroxidase-like activity and their application in the detection of H₂O₂ and glutathione

Authors: Yan Xue, [Additional authors not specified]

Journal: Applied Clay Science

Publication Date: September 2020

DOI: 10.1016/j.clay.2020.105718

 

 

 

 

Dr. Yan He | Nuclear Chemistry | Best Researcher Award

Published on by Chemistry Awards

Dr. Yan He | Nuclear Chemistry | Best Researcher Award

Dr. Yan He , Nuclear Chemistry , Student at RIKEN , Japan

Yan He is a Ph.D. student at Lanzhou University and a researcher at RIKEN, Japan, specializing in hyper nuclear physics. His work focuses on double-strangeness hyper nuclear event searches using machine learning and nuclear emulsion detectors in the J-PARC E07 experiment. By integrating AI-driven methodologies, he enhances event reconstruction and nuclear emulsion analysis, pushing the boundaries of experimental nuclear physics and particle physics. As a corresponding author, he has made significant contributions to high-impact journals and international collaborations. His expertise spans nuclear detector technology, computational physics, and hyper nuclear decay studies. At RIKEN, he collaborates with leading physicists, leveraging advanced data analysis techniques for high-precision tracking of hyper nuclei. His innovative research bridges the gap between theoretical nuclear models and experimental detection, contributing to our understanding of strong interactions and exotic nuclei. With numerous accolades, he continues to make significant strides in hyper nuclear physics and AI applications.

Professional Profile:

Orcid

Scopus 

Summary of Suitability for Award:

Yan He, a Ph.D. student at Lanzhou University and RIKEN, has demonstrated outstanding research capabilities in hyper nuclear physics, particularly in the double-strangeness hyper nuclear event search using machine learning and nuclear emulsion detectors. His work is crucial in advancing nuclear reactions research, contributing significantly to the J-PARC E07 experiment. As a corresponding author, he has published in high-impact journals, showcasing his ability to lead and contribute to cutting-edge discoveries. His research aligns with the award criteria, as it demonstrates innovation, scientific impact, and academic excellence in nuclear physics. Given his contributions to  nuclear physics, expertise in advanced detection techniques, and significant journal publications, Yan He is a strong candidate for the “Best Researcher Award”. His research not only advances fundamental knowledge in nuclear reactions but also integrates modern computational techniques, making a profound impact on the field.

🎓Education:

Yan He pursued his academic journey in nuclear physics, laying a strong foundation in experimental techniques and particle interactions. He is currently a Ph.D. candidate at Lanzhou University, focusing on hyper nuclear event detection and machine learning applications in nuclear physics. His doctoral research at RIKEN, Japan, involves hyper nuclear event searches in the J-PARC E07 experiment, using nuclear emulsion detectors for precise particle tracking. He holds a Master’s degree in Physics from Lanzhou University, where he specialized in nuclear detector technology and data-driven particle physics experiments. During this time, he developed skills in computational simulations, AI-based event classification, and nuclear reaction modeling. His Bachelor’s degree in Physics from Lanzhou University provided a strong background in quantum mechanics, nuclear interactions, and experimental physics methodologies. With expertise in nuclear emulsion analysis, machine learning algorithms, and high-energy physics, his education has been instrumental in shaping his cutting-edge research in hyper nuclear physics.

🏢Work Experience:

As a Ph.D. researcher at RIKEN, Japan, Yan He is actively involved in hyper nuclear event searches, utilizing machine learning techniques for high-precision nuclear emulsion analysis in the J-PARC E07 experiment. His expertise in nuclear detector technology enables him to develop AI-based event reconstruction algorithms, significantly improving detection accuracy. At Lanzhou University, he worked on nuclear reaction modeling and particle physics simulations, contributing to major high-energy physics collaborations. His work in nuclear emulsion detectors has enhanced hyper nuclear decay event tracking, providing critical insights into ΛΛ hyper nuclei. His experience also includes collaborations with J-PARC (Japan Proton Accelerator Research Complex), where he assists in data acquisition, detector calibration, and experimental setup optimization. Through his research, he integrates computational physics, experimental nuclear techniques, and artificial intelligence, making significant contributions to hyper nuclear event reconstruction and fundamental particle interactions.

🏅Awards: 

Yan He has received multiple accolades for his outstanding contributions to hyper nuclear physics and machine learning applications in nuclear event detection. He was honored with the Young Scientist Recognition Award at RIKEN for his groundbreaking work in hyper nuclear event searches . At Lanzhou University, he received the Best Research Scholar Award for his excellence in Ph.D. research and experimental nuclear studies . He also secured a Travel Grant Award to present his work at international particle physics conferences, showcasing his research in hyper nuclear event detection . His work on AI-driven nuclear emulsion analysis earned him the Outstanding Presentation Award at J-PARC Collaboration Meetings, recognizing his innovative approach to machine learning applications in nuclear physics 🎤. He was also awarded the RIKEN International Research Fellowship, enabling him to collaborate with global experts in nuclear physics .

🔬Research Focus:

Yan He’s research is centered on hyper nuclear physics, with a specific focus on the double-strangeness hyper nuclear event search using machine learning and nuclear emulsion detectors. His work plays a crucial role in the J-PARC E07 experiment, which aims to explore the fundamental properties of hyper nuclei—exotic nuclear states containing strange quarks. By leveraging advanced computational techniques, including deep learning algorithms, he enhances the precision and efficiency of event detection in nuclear emulsions, leading to improved data analysis and interpretation. His research not only advances our understanding of strangeness nuclear interactions but also contributes to nuclear astrophysics, particle physics, and future high-energy physics experiments. Through interdisciplinary collaboration, Yan He’s work bridges experimental nuclear physics and artificial intelligence, fostering innovation in nuclear detection technologies and paving the way for new discoveries in subatomic physics. His contributions have significant implications for both theoretical models and practical applications in nuclear science.

Publication Top Notes:

“A novel application of machine learning to detect double-Λ hypernuclear events in nuclear emulsions”

Journal: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

Publication Date: April 2025

DOI: 10.1016/j.nima.2024.170196

“A compact start time counter using plastic scintillators readout with MPPC arrays for the WASA-FRS HypHI experiment”

Journal: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

Publication Date: July 2024

DOI: 10.1016/j.nima.2024.169384

“Hypernuclear event detection in the nuclear emulsion with Monte Carlo simulation and machine learning”

Journal: Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment

Publication Date: November 2023

DOI: 10.1016/j.nima.2023.168663

Authors: A. Kasagi, W. Dou, V. Drozd, H. Ekawa, S. Escrig, Y. Gao, Y. He, E. Liu, A. Muneem, M. Nakagawa, K. Nakazawa, C. Rappold, N. Saito, T. R. Saito, S. Sugimoto, M. Taki, Y. K. Tanaka, A. Yanai, J. Yoshida, M. Yoshimoto, H. Wang

“Development of machine learning analyses with graph neural network for the WASA-FRS experiment”

Journal: The European Physical Journal A

Publication Date: May 12, 2023

DOI: 10.1140/epja/s10050-023-01016-5

“Unique approach for precise determination of binding energies of hypernuclei with nuclear emulsion and machine learning”

Journal: EPJ Web of Conferences

Publication Date: 2022

DOI: 10.1051/epjconf/202227111006

“New directions in hypernuclear physics”

Journal: Nature Reviews Physics

Publication Date: September 14, 2021

DOI: 10.1038/s42254-021-00371-w

“Improved empirical formula for α particle preformation factor”

Journal: Chinese Physics C

Publication Date: January 1, 2021

DOI: 10.1088/1674-1137/abc684

 

 

 

Assist. Prof. Dr. BUKET KARALAR | Biochemistry | Best Researcher Award

Published on by Chemistry Awards

Assist. Prof. Dr. BUKET KARALAR | Biochemistry | Best Researcher Award

Assist. Prof. Dr. BUKET KARALAR , Faculty of Dentistry , Turkey

Dr. Buket Karalar is an Assistant Professor at Sakarya University, Faculty of Dentistry. She earned her DDS degree from Ankara University  and gained hands-on clinical experience in a private dental hospital. To further specialize, she pursued advanced studies in restorative dentistry at Atatürk University between 2017 and 2021. Since May 2021, she has been engaged in academia, contributing to research in restorative dental treatments, biomaterials, and aesthetic dentistry. Dr. Karalar has published in high-impact journals and is actively involved in industry collaborations. She is a member of several professional organizations and regularly participates in international conferences. Passionate about advancing dental education and clinical methodologies, she has also contributed to book chapters and holds editorial positions. Her research aims to develop innovative materials and techniques that enhance the durability and effectiveness of dental restorations, significantly impacting modern dentistry.

Professional Profile:

Google Scholar

Summary of Suitability for Award:

Dr. Buket Karalar is a highly accomplished researcher in restorative dentistry, with significant contributions to dental biomaterials and adhesive systems. Her research focuses on developing innovative dental restorative materials, improving bonding techniques, and enhancing the longevity of dental restorations. With a strong academic background from Ankara University Faculty of Dentistry and specialization in restorative dental treatment from Atatürk University, she has demonstrated exceptional expertise in her field. Her research outputs, including high-impact publications in SCI/Scopus-indexed journals, patents, and industry collaborations, reflect her commitment to scientific advancement. Additionally, her role as an assistant professor at Sakarya University highlights her dedication to academic excellence and mentorship.Dr. Karalar’s groundbreaking research, numerous accolades, and contributions to restorative dentistry make her an ideal candidate for the “Best Researcher Award.”

🎓Education:

Dr. Buket Karalar has a strong academic background in dentistry, specializing in restorative treatments. She obtained her Doctor of Dental Surgery (DDS) from Ankara University Faculty of Dentistry in 2012, where she developed expertise in general dentistry. She then pursued specialization at Atatürk University Faculty of Dentistry from 2017 to 2021, focusing on restorative dental treatment, biomaterials, and innovative clinical methodologies. Throughout her academic journey, she has attended numerous specialized training programs, workshops, and certification courses in cosmetic dentistry, digital dentistry, and adhesive restorations. She actively participates in continuing education programs to stay updated with the latest advancements in dental materials and minimally invasive procedures. Dr. Karalar’s commitment to education has played a vital role in her transition from clinical practice to academia, where she now mentors students and contributes to groundbreaking research in restorative dentistry.

🏢Work Experience:

Dr. Buket Karalar began her professional career as a clinician in a private dental hospital after earning her DDS in 2012. In this role, she gained substantial experience in restorative and aesthetic dentistry, handling complex dental cases and developing patient-centered treatment plans. In 2017, she shifted her focus to academia and research, pursuing specialization in restorative dental treatments at Atatürk University. Since May 2021, she has been serving as an Assistant Professor at Sakarya University, where she is actively involved in teaching, clinical supervision, and research. Her work primarily revolves around biomaterials, adhesive restorations, and advanced dental treatment techniques. She has contributed to numerous industry-sponsored research projects, collaborated with international researchers, and participated in editorial roles for dental journals. With a strong commitment to both clinical and academic excellence, Dr. Karalar continues to bridge the gap between scientific research and practical dentistry.

🏅Awards: 

Dr. Buket Karalar has been widely recognized for her outstanding contributions to restorative dentistry and dental biomaterials research. She has received the Outstanding Researcher Award for her innovative work in developing advanced adhesive systems and nanocomposites for dental restorations. Her early-career achievements were acknowledged with the Young Scientist Award, highlighting her significant impact on dental material advancements. She was also honored with the Best Paper Award for her pioneering study on novel adhesive materials that enhance bonding strength and longevity. As a dedicated educator, she received the Academic Excellence Recognition for her commitment to teaching and mentoring students at Sakarya University. Additionally, she has been awarded Travel Grants for International Conferences, enabling her to present groundbreaking research on global platforms. Her dedication to bridging scientific research with clinical applications continues to earn her prestigious accolades, reinforcing her position as a leading researcher in modern dentistry.

🔬Research Focus:

Dr. Buket Karalar’s research primarily focuses on restorative dental materials, adhesive systems, and biomaterials used in modern dentistry. She explores the development and optimization of composite resins, glass ionomers, and nanomaterials for durable dental restorations. Her studies include adhesive bonding techniques, minimally invasive dentistry, and esthetic restorations, aiming to enhance clinical outcomes and patient satisfaction. She is actively involved in interdisciplinary research, collaborating with materials scientists and biomedical engineers to improve the longevity and biocompatibility of dental materials. Dr. Karalar also investigates the role of digital dentistry in CAD/CAM restorations and 3D printing applications for customized prosthetics. Her work contributes significantly to the evolution of restorative techniques, ensuring that patients receive more effective, longer-lasting, and aesthetically pleasing treatments.

Publication Top Notes:

Effects of adhesive application time and air blowing pressure on dentin bond strength of self-etch mode universal adhesives

Authors: B. Karalar, Y. Z. Bayındır

Journal: Journal of Adhesion Science and Technology

Volume & Issue: 36 (3)

Pages: 287-301

Year: 2022

Citations: 3

Influence of laser and ozone pretreatment on the shear bond strength of fissure sealants: an in vitro comparative study

Authors: N. Çelik, M. I. Yapar, B. Karalar, M. Kılıç

Journal: Journal of Advanced Oral Research

Volume & Issue: 11 (2)

Pages: 189-195

Year: 2020

Citations: 3

FARKLI POLİMERİZASYON TEKNİKLERİNİN KOMPOZİT REZİNLERİN MEKANİK VE FİZİKSEL ÖZELLİKLERİNE ETKİSİ

Authors: M. İ. Yapar, N. Çelik, Ö. Sağsöz, B. Karalar, N. Seven, Y. Z. Bayındır

Journal: Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi

Volume & Issue: 30 (1)

Pages: 26-32

Year: 2020

Citations: 3

FARKLI ÜNİVERSAL BAĞLAYICI AJANLARIN CAD/CAM SERAMİKLERİN KOMPOZİT REZİN İLE TAMİRİ SONRASI BAĞLANMA KUVVETİNE ETKİSİ

Authors: K. Cantürk, B. Karalar, Ö. Sağsöz, N. Seven, N. P. Sağsöz, Y. Z. Bayındır

Journal: Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi

Volume & Issue: 29 (3)

Pages: 381-386

Year: 2019

Citations: 3

ADEZİV UYGULAMA SÜRESİNİN UZATILMASININ MAKASLAMA BAĞLANMA DAYANIMI ÜZERİNE ETKİSİ

Authors: B. Karalar, S. Nacak, N. Ö. İlday

Journal: Atatürk Üniversitesi Diş Hekimliği Fakültesi Dergisi

Volume & Issue: 30 (2)

Pages: 196-201

Year: 2020

Citations: 1

Self-etch mod universal adezivlerin dentine bağlanma dayanımına adezivin uygulama süresi ve hava basıncının etkisi

Author: B. Karalar

Institution: Diş Hekimliği Fakültesi

Year: Not specified

 

 

 

 

 

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

Published on by Chemistry Awards

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

Prof. Dr. Helin Niu , Anhui University , China

Prof. Dr. Helin Niu (牛和林) 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 Niu’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.

🎓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 China’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.

🏢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 university’s research direction in advanced material science. His international experience includes serving as a Research Lecturer at Korea University’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 China’s inorganic chemistry and materials science community.

🏅Awards: 

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 Education’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.

🔬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 Zn−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

 

 

 

 

 

Assist. Prof. Dr. Ohyla El gammal | Inorganic Chemistry | Inorganic Chemistry Award

Published on by Chemistry Awards

Assist. Prof. Dr. Ohyla El gammal | Inorganic Chemistry | Inorganic Chemistry Award

Assist. Prof. Dr. Ohyla El gammal , Menofia university , Egypt

Dr. Ohyla Ahmed Abd El-Latif El-Gammal is an Egyptian inorganic chemist specializing in metal complexes, macrocyclic synthesis, and their biomedical applications. She earned her Ph.D. in Inorganic Chemistry from Menoufia University in 2014 and has extensive experience in academia, having served as a lecturer at Najran University, Saudi Arabia, and Menoufia University, Egypt. Her research explores spectroscopic characterization, γ-irradiation effects, and the biological activities of metal complexes. She has attended numerous international conferences and workshops, contributing to scientific discussions on materials science, analytical chemistry, and bioinorganic applications. Dr. Ohyla is actively involved in scientific publishing, having authored several high-impact journal articles. She is also dedicated to mentoring students and advancing knowledge in transition metal chemistry.

Professional Profile:

Scopus 

Summary of Suitability for Award:

Ohyla Ahmed Abd El-Latif El-Gammal is a highly suitable candidate for the “Inorganic Chemistry Award” due to her extensive contributions to the field of inorganic chemistry, particularly in the synthesis and characterization of metal complexes with biomedical applications. Her research focuses on developing innovative macrocyclic ligands, Schiff base complexes, and transition metal coordination compounds. She has made significant advancements in understanding the structural and functional properties of metal-based drugs, emphasizing their potential as anticancer, antimicrobial, and antioxidant agents.Ohyla El-Gammal is an excellent candidate for the “Inorganic Chemistry Award.” Her innovative work in metal complex synthesis, combined with her significant impact on medicinal and environmental chemistry, aligns perfectly with the award’s objectives. Her dedication to advancing inorganic chemistry through both theoretical and applied research makes her a deserving recipient of this prestigious recognition.

🎓Education:

Ohyla Ahmed Abd El-Latif El-Gammal obtained her B.Sc. in Chemistry from the Faculty of Science at Menoufia University, Egypt. She pursued postgraduate studies in Chemistry, further deepening her expertise in the field. She earned her M.Sc. in Inorganic Chemistry, focusing on the synthesis and characterization of metal complexes. Her academic journey culminated in a Ph.D. in Inorganic Chemistry, where she explored the design and application of macrocyclic metal complexes. Additionally, she obtained an ICDL certification, demonstrating her proficiency in information and communication technology. Throughout her education, she developed a strong foundation in coordination chemistry, spectroscopic techniques, and materials science, which later shaped her research interests in anticancer, antioxidant, and antimicrobial studies. Her educational background provided her with the necessary expertise to contribute significantly to the field of inorganic chemistry, particularly in the synthesis of innovative metal complexes with potential biomedical applications.

🏢Work Experience:

Ohyla El-Gammal has extensive experience in academia, serving as a Lecturer in Chemistry at various institutions. She has taught undergraduate courses in inorganic chemistry, transition metals, quantum chemistry, and analytical techniques. Her teaching career includes positions at Najran University, Saudi Arabia, where she contributed to the education of students in the fields of lanthanides, actinides, and phase chemistry. She also served as a faculty member at Northern Border University, Rafha, Saudi Arabia, specializing in principal group chemistry and spectroscopic methods. Additionally, she has been actively involved in laboratory-based instruction, focusing on qualitative and quantitative analytical chemistry. Apart from teaching, she has participated in numerous workshops and conferences, enhancing her expertise in scientific research and publishing. Her experience spans both theoretical and practical aspects of chemistry, making her a well-rounded academic professional with a strong commitment to research and education.

🏅Awards: 

Ohyla El-Gammal has received multiple accolades in recognition of her contributions to chemistry and academia. She has been honored for her participation in prestigious international scientific conferences and workshops, where she presented her research on metal complexes and their biomedical applications. She has actively engaged in high-impact research collaborations, earning recognition for her significant contributions to inorganic chemistry. She has also been acknowledged for her dedication to teaching and mentoring students, ensuring excellence in chemical education. Her involvement in major research projects and her participation in international scientific academies have further established her as a distinguished researcher. In addition, her research on macrocyclic complexes and their anticancer properties has been widely appreciated, leading to invitations to speak at global scientific forums. Her contributions to scientific publishing, along with her active role in international webinars, have cemented her reputation as a dedicated and accomplished chemist.

🔬Research Focus:

Ohyla El-Gammal’s research interests lie in inorganic chemistry, particularly in the synthesis and characterization of metal complexes with biomedical applications. She specializes in the development of macrocyclic ligands, transition metal coordination compounds, and Schiff base complexes. Her work explores the spectroscopic characterization of newly synthesized compounds, focusing on their structural and functional properties. She investigates the impact of γ-irradiation on metal complexes, studying their stability and enhanced biological activity. Her research extends to anticancer, antioxidant, and antimicrobial activities, aiming to develop novel therapeutic agents. She also works on improving the surface morphology of metal complexes for enhanced pharmaceutical applications. Her studies contribute significantly to the understanding of metal-based drugs and their potential in medicine. By integrating spectroscopic analysis and computational modeling, she continues to advance knowledge in the field of inorganic chemistry, contributing to the development of innovative materials for biomedical and environmental applications.

Publication Top Notes:

Synthesis, characterization, molecular docking and in vitro antibacterial assessments of anthracene-bis(hydrazine)thiosemicarbazide complexes with Co(II), Ni(II) and Cu(II) ions

Authors: O.A. El-Gammal, A.A. El-Bindary, A.M. Eldesoky, I.M. Abd Al-Gader

Journal: Journal of Molecular Structure

Year: 2025

Citations: 1

DNA binding, potential anticancer, antioxidant and molecular docking simulations of some isonicotinohydrazide metal complexes with the impact of high energy γ-rays irradiation doses: Synthesis and structural characterization

Authors: O.A. El-Gammal, H.A. El-Boraey, H. Alshater

Journal: Journal of Molecular Structure

Year: 2024

Citations: 1

Bishydrazone ligand and its Zn-complex: synthesis, characterization and estimation of scalability inhibition mitigation effectiveness for API 5L X70 carbon steel in 3.5% NaCl solutions

Authors: O.A. El-Gammal, D.A. Saad, M.N. El-Nahass, K. Shalabi, Y.M. Abdallah

Journal: RSC Advances

Year: 2024

Synthesis, structural characterization, antioxidant, cytotoxic activities and docking studies of schiff base Cu(II) complexes

Authors: G.N. Rezk, O.A. El-Gammal, S.H. Alrefaee, A.A. El-Bindary, M.A. El-Bindary

Journal: Heliyon

Year: 2023

Citations: 20

Synthesis, spectral, DFT, intrinsic constant of DNA binding and antioxidant activity of vanadyl (IV)2+^2+ complexes of a symmetrical bisthiosemicarbazides

Authors: O.A. El-Gammal, M.A.R. El-Nawawy, H.A. Gomaa, B.M. Ismael

Journal: Journal of Molecular Structure

Year: 2023

Citations: 4

Divalent transition metal complexes of multidentate nitrogen, oxygen and sulfur containing ligand: Design, spectroscopic, theoretical molecular modeling and antioxidant-like activity

Authors: B.M. Ismael, M.A.R. El-Nawawy, H.A. Gomaa, O.A. El-Gammal

Journal: Egyptian Journal of Chemistry

Year: 2022

 

 

 

 

Prof. Dr. Alexander Zakharov | Computational Chemistry | Best Researcher Award

Published on by Chemistry Awards

Prof. Dr. Alexander Zakharov | Computational Chemistry | Best Researcher Award

Prof. Dr. Alexander Zakharov , Institute of Problems of Mechanical Science, RAS , Russia

Dr. Alexandre V. Zakharov is a distinguished Russian physicist specializing in molecular physics, hydrodynamics, and lubrication science. He is the Head of the Hydrodynamics of Liquid Crystals Laboratory at the St. Petersburg Institute for Machine Sciences, Russian Academy of Sciences. With a research career spanning over four decades, he has contributed extensively to theoretical and applied physics. His expertise has led him to numerous international collaborations, including positions as a visiting professor in Japan, Canada, Italy, and Sweden. He has authored numerous scientific publications and played a pivotal role in advancing the understanding of liquid crystal hydrodynamics and lubrication phenomena. His contributions have been recognized worldwide, and he remains an influential figure in molecular and mathematical physics.

Professional Profile:

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Summary of Suitability for Award:

Dr. Alexandre V. Zakharov is a highly accomplished physicist with a distinguished career spanning over four decades in molecular physics, liquid crystal hydrodynamics, tribology, and nanodevice engineering. His groundbreaking contributions to fluid dynamics, lubrication science, and computational modeling have significantly influenced both theoretical and applied physics. His Habilitation Doctorate in Molecular Physics  and Ph.D. in Theoretical and Mathematical Physics (1983) demonstrate his deep academic expertise. Dr. Zakharov’s exceptional research contributions, international collaborations, leadership roles, and impact on multiple scientific domains make him a highly suitable nominee for the Best Researcher Award. His expertise in fluid dynamics, computational modeling, and nanophysics has significantly advanced scientific knowledge and practical applications. Given his outstanding achievements, he is a strong candidate for this prestigious honour.

🎓Education:

Dr. Alexandre V. Zakharov holds a Habilitation Doctorate in Molecular Physics, awarded in 1992 by the Higher Attestation Commission of the USSR. He earned his Ph.D. in Theoretical and Mathematical Physics from Byelorussian State University in 1983, under the guidance of Profs. L.A. Rott and E.T. Brook-Levinson. His doctoral research laid the foundation for his future contributions to molecular and mathematical physics. He completed his Master’s degree in Mathematical Physics at Leningrad State University in 1974 after studying there from 1969 to 1974. His strong mathematical background provided him with a rigorous framework to explore fluid dynamics, liquid crystal physics, and tribology. Throughout his academic career, he has integrated theoretical models with experimental data, shaping the development of nanophysics and lubrication science. His education has played a crucial role in his contributions to physics, particularly in hydrodynamics, photonics, and computational modeling.

🏢Work Experience:

Dr. Zakharov has over four decades of experience in molecular physics and hydrodynamics. Since 2009, he has served as Head of the Hydrodynamics of Liquid Crystals Laboratory at the St. Petersburg Institute for Machine Sciences, Russian Academy of Sciences. Before this, he was a Leading Researcher (1995-2009) and Senior Researcher (1986-1995) in the Microwear and Lubrication Laboratory at the same institute. His career also includes roles as a Senior Researcher at the Medical Institute in Minsk (1985-1986) and a Junior Researcher at the Heat and Mass Transfer Institute of the BSSR Academy of Sciences (1974-1984). He has also held numerous international visiting professorships in Japan, Canada, Italy, Turkey, and Sweden. His global experience has significantly contributed to advancements in lubrication science, tribology, and liquid crystal hydrodynamics, reinforcing his position as a leading figure in theoretical and applied physics.

🏅Awards: 

Dr. Zakharov has received numerous accolades for his contributions to physics. He was awarded multiple research grants by the Japan Society for the Promotion of Science (JSPS) and the COE “Photonics Nanodevice Integration Engineering” for his collaborative work at Tokyo Institute of Technology. The Cariplo Foundation and NATO grants supported his research at the University of Pavia, Italy. He also held a Senior Research Fellowship at KU Leuven, Belgium (2002-2004) and a two-year Visiting Professorship at Brandon University, Canada. His pioneering work on liquid crystal hydrodynamics, lubrication science, and photonics has earned him recognition in the global scientific community. His involvement in international collaborations has strengthened research ties across continents, making significant contributions to computational physics, tribology, and nanoscale engineering. These honors underscore his impact on advancing molecular physics and interdisciplinary research in fluid dynamics and materials science.

🔬Research Focus:

Dr. Zakharov’s research spans multiple interdisciplinary domains, including hydrodynamics of liquid crystals, tribology, nanodevice engineering, and mathematical physics. His work in molecular physics and lubrication science has advanced the understanding of fluid dynamics at the nanoscale. He specializes in microwear phenomena, studying the effects of lubrication and friction at microscopic levels to improve mechanical efficiency. His expertise in photonics and nanodevice integration contributes to the development of next-generation materials and optical devices. He has also conducted groundbreaking research in viscoelastic properties of complex fluids, providing theoretical and computational models for practical applications in material science. His mathematical modeling has been instrumental in describing nonlinear effects in liquid crystals, bridging theoretical predictions with experimental findings. His research continues to influence nanotechnology, physics, and mechanical engineering, driving innovations in computational simulations, material properties, and tribological applications.

Publication Top Notes:

Laser-driven nematic flow in microfluidic devices

Authors: Izabela Śliwa, Pavel V. Maslennikov, Dmitrii P. Shcherbinin, and Alex V. Zakharov

Journal: Physical Review E

Publication Date: December 24, 2024

DOI: 10.1103/PhysRevE.110.064702

Citations: As of now, there are no citations listed for this publication.

Anchoring transitions in thin liquid crystal films as seen from a mean-force potentials approach

Authors: Not specified in the available sources.

Journal: Physical Review E

Publication Date: December 17, 2024

DOI: 10.1103/PhysRevE.110.064701

Citations: As of now, there are no citations listed for this publication.

Paired correlations of dipolar liquid crystals: A mean-force-potentials approach

Authors: Not specified in the available sources.

Journal: Physical Review E

Publication Date: November 7, 2024

DOI: 10.1103/PhysRevE.110.054702

Citations: As of now, there are no citations listed for this publication.

MD simulations of diffusion of cyanobiphenyl molecules adsorbed on the graphene surface coated with alkane and alcohol molecules

Authors: Not specified in the available sources.

Journal: Journal of Physical Organic Chemistry

Publication Date: September 2024

DOI: 10.1002/poc.4640

Citations: As of now, there are no citations listed for this publication.

Features of director reorientation in a thin nematic film under the influence of crossed electric and magnetic fields

Authors: Not specified in the available sources.

Journal: Physical Review E

Publication Date: April 26, 2024

DOI: 10.1103/PhysRevE.109.044704

Citations: As of now, there are no citations listed for this publication.

Water/organic liquid interface properties with amine, carboxyl, thiol, and methyl terminal groups as seen from MD simulations

Authors: Not specified in the available sources.

Journal: Journal of Computational Chemistry

Publication Date: December 5, 2023

DOI: 10.1002/jcc.27205

Citations: As of now, there are no citations listed for this publication.

Electrically Driven Kink-Like Distortion Waves in Liquid Crystals

Authors: Not specified in the available sources.

Journal: Liquid Crystals and their Application

Publication Date: September 29, 2023

DOI: 10.18083/LCAppl.2023.3.46

Citations: As of now, there are no citations listed for this publication.

Electrically driven kinklike distorting waves in microsized liquid crystals

Authors: Not specified in the available sources.

Journal: Physical Review E

Publication Date: September 27, 2023

DOI: 10.1103/PhysRevE.108.034703

Citations: As of now, there are no citations listed for this publication.

Photo-Induced Relief in Rheology of Liquid Crystals

Authors: Not specified in the available sources.

Journal: Symmetry

Publication Date: March 14, 2023

DOI: 10.3390/sym15030722

Citations: As of now, there are no citations listed for this publication.

Vortex Dynamics in a Hybrid Aligned Nematic Microvolume with an Orientational Defect

Authors: Not specified in the available sources.

Journal: Symmetry

Publication Date: January 23, 2023

DOI: 10.3390/sym15020324

Citations: As of now, there are no citations listed for this publication.