Basem KESHTA | Chemical Engineering | Best Researcher Award

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Dr. Basem KESHTA | Chemical Engineering | Best Researcher Award

Postdoctoral Fellow from Zhejiang Normal University, China 

Dr. Basem E. Keshta is a dedicated researcher in the field of chemistry, currently affiliated with the Department of Computational Chemistry at CDBIO in Romania. His work primarily focuses on computational approaches to chemical research, contributing to advancements in the field. Dr. Keshta has collaborated on significant publications, including a study on wet surface tissue adhesive hydrogels for wound treatment, published in the European Polymer Journal in 2024 . His research interests are centered around chemistry, and he has been recognized as a global expert from Romania in this domain.

Professional Profile

Education

Specific details regarding Dr. Keshta’s educational background are not publicly available. However, his current role in computational chemistry suggests a strong academic foundation in chemistry and related disciplines. Typically, professionals in this field hold advanced degrees such as a Master’s or Ph.D. in Chemistry, Computational Chemistry, or Chemical Engineering. These programs provide rigorous training in chemical theory, laboratory practices, and computational modeling, equipping researchers with the skills necessary for complex chemical analysis and research. Dr. Keshta’s contributions to scientific publications indicate a high level of expertise and a solid educational background supporting his research endeavors.

Professional Experience

Dr. Keshta is currently engaged with the Department of Computational Chemistry at CDBIO in Romania. His professional experience encompasses research in computational chemistry, where he applies theoretical and computational methods to solve chemical problems. This role involves collaboration with interdisciplinary teams, contributing to the development of innovative solutions in chemistry. His involvement in recent publications, such as the study on tissue adhesive hydrogels, demonstrates his active participation in advancing chemical research. While specific details of his previous positions are not disclosed, his current role signifies a career dedicated to scientific inquiry and research excellence.

Research Interests

Dr. Keshta’s research interests lie within the broad field of chemistry, with a particular focus on computational chemistry. This area involves using computer simulations and models to understand chemical structures, reactions, and properties. His work contributes to the development of new materials and chemical processes, as evidenced by his co-authorship in a study on wet surface tissue adhesive hydrogels for wound treatment . Such research has significant implications in biomedical applications, showcasing his interest in applying chemical principles to solve real-world problems.

Research Skills

Dr. Keshta possesses a strong skill set in computational chemistry, including proficiency in molecular modeling, simulation techniques, and data analysis. His expertise enables him to investigate complex chemical systems and contribute to the design of novel materials. The study on tissue adhesive hydrogels highlights his ability to collaborate on interdisciplinary research, integrating chemistry with biomedical applications . His skills are essential for advancing research in developing materials with specific properties, such as biocompatibility and adhesion, which are critical in medical treatments.

Awards and Honors

There is no publicly available information regarding specific awards or honors received by Dr. Keshta. However, his recognition as a global expert in chemistry from Romania indicates a respected standing in the scientific community . His contributions to high-impact research publications further underscore his professional achievements and the esteem in which he is held by peers in his field.

Conclusion

Dr. Basem E. Keshta is a committed chemist specializing in computational chemistry, contributing to significant research endeavors at CDBIO in Romania. His work, particularly in developing tissue adhesive hydrogels, demonstrates the practical applications of his research in addressing medical challenges . While specific details about his educational background and awards are not publicly disclosed, his active role in scientific research and recognition as a global expert reflect his dedication and impact in the field of chemistry

Publications Top Notes

  • Chemical insight into the adsorption of reactive wool dyes onto amine-functionalized magnetite/silica core-shell from industrial wastewaters
    Authors: AH Gemeay, BE Keshta, RG El-Sharkawy, AB Zaki
    Year: 2020

  • MIL series-based MOFs as effective adsorbents for removing hazardous organic pollutants from water
    Authors: BE Keshta, H Yu, L Wang
    Year: 2023

  • Impacts of horseradish peroxidase immobilization onto functionalized superparamagnetic iron oxide nanoparticles as a biocatalyst for dye degradation
    Authors: BE Keshta, AH Gemeay, AA Khamis
    Year: 2021

  • State of the art on the magnetic iron oxide nanoparticles: Synthesis, Functionalization, and applications in wastewater treatment
    Authors: BE Keshta, AH Gemeay, DK Sinha, S Elsharkawy, F Hassan, N Rai, et al.
    Year: 2024

  • Cutting-edge in the green synthesis of MIL-101 (Cr) MOF based on organic and inorganic waste recycling with extraordinary removal for anionic dye
    Authors: BE Keshta, H Yu, L Wang, AH Gemeay
    Year: 2023

  • Advanced lithography materials: From fundamentals to applications
    Authors: Y Zhang, H Yu, L Wang, X Wu, J He, W Huang, C Ouyang, D Chen, et al.
    Year: 2024

  • Recent advances in wet surface tissue adhesive hydrogels for wound treatment
    Authors: A Basit, H Yu, L Wang, MA Uddin, Y Wang, KM Awan, BE Keshta, et al.
    Year: 2024

  • Cost-effective synthesis of MIL-101 (Cr) from recyclable wastes and composite with polyaniline as an ion-to-electron transducer for potentiometric Pb2+ sensing
    Authors: BE Keshta, H Yu, L Wang, MA Uddin, HG El-Attar, AE Keshta, AH Gemeay, et al.
    Year: 2024

  • A state-of-the-art review on green synthesis and modifications of ZnO nanoparticles for organic pollutants decomposition and CO2 conversion
    Authors: ZU Zango, A Garba, FB Shittu, SS Imam, A Haruna, MU Zango, IA Wadi, et al.
    Year: 2025

  • Influence of Synthesis and Functionalization Procedures of Fe3O4 NPs by Mono- and Diamino Silane Coupling Agents on the Adsorption Efficiency of Anionic Dyes
    Authors: BE Keshta, AH Gemeay
    Year: 2022

 

Laxminarayana Eppakayala | Chemistry | Best Researcher Award

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Prof. Dr. Laxminarayana Eppakayala | Chemistry | Best Researcher Award

Professor from Sreenidhi Institute of Science and Technology, India

Dr. E. Laxminarayana is a distinguished academician and researcher specializing in Organic Chemistry. With over two decades of teaching experience and 14 years dedicated to research, he has made significant contributions to the field. Currently serving as an Associate Professor at Sreenidhi Institute of Science and Technology, Dr. Laxminarayana has been instrumental in mentoring students and advancing research initiatives within the department. His scholarly work is reflected in his impressive portfolio of 165 publications in both national and international journals. Beyond teaching, he has guided five Ph.D. scholars from Jawaharlal Nehru Technological University Hyderabad, focusing on innovative synthetic methodologies and computational studies. His commitment to excellence in education and research has been recognized through various awards, including the Best Teacher and Best Researcher accolades. Dr. Laxminarayana’s expertise and dedication continue to inspire students and colleagues alike, solidifying his reputation as a leading figure in the field of Organic Chemistry.

Professional Profile

Education

Dr. E. Laxminarayana’s academic journey is rooted in Kakatiya University, where he pursued all his higher education degrees. He completed his Bachelor of Science (B.Sc.) in 1999, laying a strong foundation in the sciences. His passion for chemistry led him to undertake a Master of Science (M.Sc.) in Organic Chemistry, which he completed in 2002. Driven by a quest for deeper knowledge and research, he pursued a Doctor of Philosophy (Ph.D.) in Organic Chemistry, culminating in 2009. His doctoral research focused on the development of novel synthetic methodologies, contributing valuable insights to the field. Throughout his academic pursuits, Dr. Laxminarayana demonstrated a consistent commitment to excellence, which has been the cornerstone of his subsequent teaching and research career.

Professional Experience

With over 20 years of teaching experience, Dr. E. Laxminarayana has been a pivotal figure in shaping the academic landscape at Sreenidhi Institute of Science and Technology. As an Associate Professor in the Department of Chemistry, he has been instrumental in delivering comprehensive education in subjects like Engineering Chemistry and Environmental Science. His pedagogical approach combines theoretical knowledge with practical applications, fostering a conducive learning environment for students. Beyond classroom teaching, Dr. Laxminarayana has actively engaged in curriculum development, research mentorship, and departmental administration. His leadership has been crucial in initiating co-curricular and extracurricular activities, enhancing the holistic development of students. His dedication to education and research has not only elevated the department’s stature but also contributed significantly to the institution’s academic excellence.

Research Interests

Dr. E. Laxminarayana’s research interests are primarily centered around Organic Synthesis and Computational Studies. His work in Organic Synthesis involves developing innovative methodologies for constructing complex organic molecules, which has significant implications in pharmaceuticals and material science. In the realm of Computational Studies, he employs computational chemistry techniques to model and predict the behavior of organic compounds, facilitating a deeper understanding of reaction mechanisms and molecular properties. This interdisciplinary approach allows for the integration of theoretical and practical aspects of chemistry, leading to more efficient and sustainable chemical processes. His research has not only contributed to academic knowledge but also holds potential for real-world applications in drug development and industrial chemistry.

Research Skills

Dr. E. Laxminarayana possesses a robust set of research skills that underpin his contributions to Organic Chemistry. His expertise in Organic Synthesis enables him to design and execute complex chemical reactions, leading to the creation of novel compounds with potential therapeutic applications. He is proficient in various spectroscopic and chromatographic techniques, essential for the characterization and analysis of chemical substances. In Computational Chemistry, he utilizes advanced software tools to simulate molecular structures and predict chemical behaviors, aiding in the rational design of experiments. His ability to integrate computational insights with experimental data enhances the efficiency and accuracy of his research. Additionally, his experience in guiding Ph.D. students reflects his mentorship skills and commitment to fostering new talent in the field.

Awards and Honors

Dr. E. Laxminarayana’s dedication to teaching and research has been recognized through several prestigious awards. He has been honored with the Best Teacher Award, acknowledging his exceptional contributions to education and student development. His research excellence has earned him the Best Researcher Award, reflecting the impact and quality of his scholarly work. Furthermore, he has received the Best Citizens of India award from the Indian Institute of Financial Studies (IIFS), New Delhi, highlighting his contributions to the nation through education and research. These accolades underscore his commitment to academic excellence and his influence as a thought leader in the field of Organic Chemistry.

Conclusion

In summary, Dr. E. Laxminarayana stands out as a dedicated educator and a prolific researcher in Organic Chemistry. His extensive teaching experience, coupled with a strong research portfolio, has significantly contributed to the academic community. His work in Organic Synthesis and Computational Studies not only advances scientific understanding but also has practical implications in various industries. The recognition he has received through multiple awards attests to his excellence and influence in the field. As he continues to mentor students and pursue innovative research, Dr. Laxminarayana remains a vital asset to Sreenidhi Institute of Science and Technology and the broader scientific community.

Publications Top Notes

  • Title: Design, synthesis, in silico ADME, toxicity prediction, molecular docking studies of 1,2,4-oxadiazole incorporated indolizine-thiadiazole derivatives and their biological evaluation as anticancer agents
    Authors: Ketha, Swarupa; Chithaluri, Sudhakar; Kethireddy, Shashikala; Eppakayala, Laxminarayana; Asiri, Yahya I.
    Journal: Tetrahedron
    Year: 2025

  • Title: Synthesis and biological evaluation of thiazolo[3,2-b][1,2,4]triazole substituted 1,3,4-oxadiazole and pyridine derivatives as anticancer agents
    Authors: Alkhathami, Ali Gaithan; Tasqeeruddin, Syed; Sultana, Shaheen; Eppakayala, Laxminarayana; Somaiah, Nalla
    Journal: Tetrahedron
    Year: 2025

  • Title: In silico and antibacterial studies of Thiadiazole and Triazole linked 1,8-Napthyridine derivatives
    Authors: Lakshmi, Bhargavi J.; Pittala, Bhaskar; Eppakayala, Laxminarayana; Donta, Paramesh; Reddy, Chittireddy Venkata Ramana
    Journal: Research Journal of Chemistry and Environment
    Year: 2025

  • Title: Synthesis and biological evaluation of aryl derivatives of indole-1,3,4-thiadiazole as anticancer agents
    Authors: Kalagara, Sudhakar; Baddam, Sudhakar Reddy; Ganta, Srinivas; Damarancha, Anil; Eppakayala, Laxminarayana
    Journal: Synthetic Communications
    Year: 2025

  • Title: Synthesis and molecular docking studies of some new 2-N-acylaminobenzothiazole derivatives
    Authors: Pittala, Bhaskar; Bireddy, Srinivasa Reddy; Eppakayala, Laxminarayana; Chittireddy, Venkata Ramana Reddy
    Journal: Indian Journal of Heterocyclic Chemistry
    Year: 2025

  • Title: Highly Efficient Synthesis of 1,3,5-Oxadiazinan-4-one and 5-Methyl-1,3,5-triazinan-2-one Derivatives of Benzimidazolyl Pyrimidine and Their Activity Analysis through Docking Studies
    Authors: Patolla, S.; Kethireddy, Shashikala; Pittala, Bhaskar; Eppakayala, Laxminarayana; Bireddy, Srinivasa Reddy
    Journal: Russian Journal of Organic Chemistry
    Year: 2024

Hiroshi Nishihara | Chemistry | Best Researcher Award

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Prof. Dr. Hiroshi Nishihara | Chemistry | Best Researcher Award

Vice President from Tokyo, Japan

Professor Hiroshi Nishihara is a distinguished Japanese chemist renowned for his pioneering work in electrochemistry, coordination chemistry, and materials science. Over a career spanning more than four decades, he has made substantial contributions to fundamental and applied research in organometallic and supramolecular chemistry. Beginning his academic journey at the University of Tokyo, he has held prominent academic and leadership roles in Japan and internationally. As a prolific scholar, he has authored 490 original research papers and led several high-impact national projects. His research has helped develop innovative materials such as coordination nanosheets and hybrid 2D materials with advanced electronic, photonic, and chemical functionalities. Prof. Nishihara has been recognized globally for his academic excellence, holding honorary and visiting professorships in Europe and Asia, and receiving multiple prestigious awards. He is currently Professor and Director at the Research Institute for Science and Technology (RIST), Tokyo University of Science, and also serves as the Vice President of the institution. Beyond research, he has demonstrated a strong commitment to science education and academic leadership, serving in top roles within key scientific societies. His interdisciplinary expertise and visionary leadership have positioned him as one of the leading figures in modern chemical science.

Professional Profile

Education

Professor Hiroshi Nishihara completed his Doctor of Science (D.Sc.) degree in 1982 from the prestigious University of Tokyo, Japan. This strong academic foundation in chemistry laid the groundwork for his extensive research and teaching career. The University of Tokyo, known for its rigorous academic training and excellence in scientific research, played a vital role in shaping Prof. Nishihara’s scientific perspective, particularly in the fields of coordination chemistry and electrochemistry. His early academic training focused on understanding the intricate behaviors of molecular and supramolecular systems, which later became central themes in his professional research endeavors. His doctoral work equipped him with both theoretical and practical skills necessary for advanced chemical synthesis and analysis. The influence of this rigorous doctoral education is evident in the methodological precision and innovation found throughout his academic contributions. His advanced education also enabled him to engage with global scholars and institutions at an early stage in his career, supporting his later appointments and recognitions abroad. The University of Tokyo remains a critical pillar in his academic trajectory, not only as the alma mater where he began his journey but also as the institution where he returned as a full professor and served until his retirement in 2020.

Professional Experience

Professor Hiroshi Nishihara’s professional journey reflects a distinguished and progressive academic career. He began as a Research Associate at Keio University in 1982, shortly after receiving his doctoral degree. He was later promoted to Lecturer in 1990 and Associate Professor in 1992 at the same institution. In 1996, he was appointed as a Professor at the School of Science, University of Tokyo, where he served until his retirement in 2020. Since then, he has continued to be active in academia as an Emeritus Professor at the University of Tokyo and as a Professor and Director of the Research Institute for Science and Technology (RIST) at Tokyo University of Science. He is also the current Vice President of Tokyo University of Science. His international experience includes serving as a Visiting Research Associate at the University of North Carolina at Chapel Hill (1987–1989). He has held professorships at the University of Bordeaux and University of Strasbourg in France, and a distinguished lectureship at Hong Kong Baptist University. His appointment as Honorary Chair Professor at National Sun-Yat-sen University (2024–2027) further attests to his global academic influence. Throughout his career, he has held numerous leadership roles in professional societies and research projects.

Research Interests

Professor Hiroshi Nishihara’s research interests span several interdisciplinary areas of modern chemistry, with a particular focus on electrochemistry, coordination chemistry, organometallic chemistry, photochemistry, and materials science. A central theme in his research is the design and synthesis of novel molecular and supramolecular systems with advanced functionalities. He has made pioneering contributions to the development of coordination nanosheets and hybrid organic-inorganic 2D materials, which exhibit unique electronic and optical properties. His work aims to understand and manipulate electron transfer processes at the molecular level, leading to innovations in electronic devices, energy storage, and sensing technologies. The intersection of coordination chemistry with nanotechnology is a hallmark of his research approach, as he continuously explores how molecular structure can be harnessed to control physical behavior. He has also contributed significantly to the field of photofunctional materials and molecular electronics. In recent years, his research has emphasized the creation of hetero-structured nanosheets and conjugated polymers with potential applications in energy storage and catalysis. These interests not only reflect his deep theoretical understanding but also his drive toward real-world applications. His work is at the forefront of molecular materials chemistry, bridging traditional chemical disciplines with advanced materials science.

Research Skills

Professor Hiroshi Nishihara possesses an exceptional range of research skills that have positioned him at the forefront of chemical science and materials research. His expertise in the synthesis of coordination compounds, organometallic complexes, and supramolecular assemblies forms the foundation of his experimental approach. He is highly skilled in applying electrochemical techniques to study redox-active materials and electron transfer processes. His ability to design and fabricate novel 2D materials, such as coordination nanosheets and hybrid organic-inorganic systems, highlights his proficiency in nanomaterial synthesis and structural control. He also demonstrates strong analytical capabilities in characterizing complex systems using spectroscopy, electrochemical analysis, and crystallography. Moreover, Prof. Nishihara has led large-scale, interdisciplinary research projects that require advanced project management, innovation planning, and cross-functional collaboration. He is adept at translating fundamental chemical insights into technologically relevant applications, including electronic devices and high-energy-density batteries. His experience in leading government-funded projects reflects his strategic thinking and ability to identify emerging research opportunities. Additionally, his mentoring of young researchers and involvement in chemical education showcases his skills in scientific communication and pedagogy. Overall, his research toolkit integrates deep chemical knowledge with innovative problem-solving and leadership in collaborative environments.

Awards and Honors

Professor Hiroshi Nishihara has received numerous prestigious awards and honors in recognition of his exceptional contributions to chemical science. He was awarded the Docteur Honoris Causa by the University of Bordeaux in 2011, reflecting his international influence and collaborative scientific achievements. In 2014, he received the Commendation for Science and Technology by Japan’s Minister of Education, Culture, Sports, Science and Technology. This was followed by the Japan Society of Coordination Chemistry Award in 2015 and The Chemical Society of Japan Award in 2016, both of which honor his innovative contributions to coordination chemistry. In 2020, he received The Chemical Society of Japan Award for Chemical Education, acknowledging his efforts in mentoring and educational leadership. He also received the Kato Memorial Award in 2022. Prof. Nishihara is a Fellow of the Royal Society of Chemistry (2014) and the Electrochemical Society of Japan (2020). His academic service includes serving as Vice President of the International Society of Electrochemistry and The Chemical Society of Japan, and President of the Electrochemical Society of Japan and the Japan Society of Coordination Chemistry. These recognitions collectively highlight his wide-ranging impact on both scientific research and the chemical community.

Conclusion

Professor Hiroshi Nishihara exemplifies excellence in scientific research, education, and academic leadership. With a prolific output of 490 original research papers and a distinguished track record of leading major research initiatives, he has significantly advanced the fields of electrochemistry, coordination chemistry, and materials science. His work has not only contributed to foundational scientific understanding but also to the development of functional materials with practical applications. Through his international collaborations, he has fostered global academic exchange, further enhancing the visibility and impact of his research. His service to academic societies and commitment to educating the next generation of chemists are additional testaments to his comprehensive contributions to science. Despite his retirement from the University of Tokyo, his ongoing roles as Professor, Vice President, and Director at Tokyo University of Science reflect his continued leadership in academia. While more public visibility of recent high-impact publications or patent activity could add further depth to his profile, his overall accomplishments make him a strong and deserving candidate for the Best Researcher Award. His career serves as a model of sustained excellence, interdisciplinary innovation, and dedicated service to the advancement of chemistry.

Publications Top Notes

  • Synthesis of Bis(diimino)palladium Nanosheets as Highly Active Electrocatalysts for Hydrogen Evolution
    Chemistry – A European Journal, 2025.
    DOI: 10.1002/CHEM.202403082
    Contributors: Maeda, Hiroaki; Phua, Eunice Jia Han; Sudo, Yuta; Nagashima, Sayoko; Chen, Wentai; Fujino, Mayumi; Takada, Kenji; Fukui, Naoya; Masunaga, Hiroyasu; Sasaki, Sono; et al.

  • Coordination Nanosheets Stabilizing Efficient Tin-Based Perovskite Solar Cells
    ACS Applied Materials & Interfaces, 2025-05-07.
    DOI: 10.1021/acsami.5c05011
    Contributors: Khadka, Dhruba B.; Kuo, Yan-Chen; Li, Yi Zhen; Waqas, Muhammad; Xu, You-Jia; Yanagida, Masatoshi; Nishihara, Hiroshi; Tsukagoshi, Kazuhito; Chou, Mitch M. C.; Shirai, Yasuhiro; et al.

  • Rationally Engineered Heterometallic Metalladithiolene Coordination Nanosheets with Defined Atomic Arrangements
    Small, 2025-05-05.
    DOI: 10.1002/smll.202503227
    Contributors: Ito, Miyu; Fukui, Naoya; Takada, Kenji; Yu, Ziheng; Maeda, Hiroaki; Mizuno, Katsuya; Nishihara, Hiroshi.

  • Interfacial Synthesis of an Electro-Functional 2D Bis(terpyridine)copper(II) Polymer Nanosheet
    Molecules, 2025-05-04.
    DOI: 10.3390/molecules30092044
    Contributors: Takada, Kenji; Komeda, Joe; Maeda, Hiroaki; Fukui, Naoya; Masunaga, Hiroyasu; Sasaki, Sono; Nishihara, Hiroshi.

  • Revealing the Charge Transport Physics in Metallic Coordination Nanosheets by Thermoelectric and Magnetotransport Measurements
    Science Advances, 2025-04-09.
    DOI: 10.1126/sciadv.adt9196
    Contributors: Fukui, Naoya; Nishihara, Hiroshi; Quarti, Claudio; Zhang, Lu; Ren, Xinglong; Beljonne, David; Jacobs, Ian; Sirringhaus, Henning; Wu, Tian; Cornil, David.

  • Discrete Coordination Nanochains Based on Photoluminescent Dyes Reveal Intrachain Exciton Migration Dynamics
    Nature Communications, 2025-02-04.
    DOI: 10.1038/s41467-025-56381-0
    Contributors: Toyoda, Ryojun; Fukui, Naoya; Taniguchi, Haru; Uratani, Hiroki; Komeda, Joe; Chiba, Yuta; Takaya, Hikaru; Nishihara, Hiroshi; Sakamoto, Ryota.

  • Bis(diimino)nickel Coordination Nanosheets Modified with Triptycene Moieties for Facile Exfoliation and Enhanced Hydrogen Evolution Catalytic Activity
    ACS Applied Nano Materials, 2024.
    DOI: 10.1021/acsanm.4c02625
    Contributors: Maeda, Hiroaki; Sudo, Yuta; Nagashima, Sayoko; Takada, Kenji; Fukui, Naoya; Masunaga, Hiroyasu; Sasaki, Sono; Nishihara, Hiroshi.

  • Face-on-Oriented Formation of Bis(diimino)metal Coordination Nanosheets on Gold Electrodes by Electrochemical Oxidation
    New Journal of Chemistry, 2024.
    DOI: 10.1039/d3nj05650c
    Contributors: Maeda, Hiroaki; Takada, Kenji; Fukui, Naoya; Masunaga, Hiroyasu; Sasaki, Sono; Tsukagoshi, Kazuhito; Nishihara, Hiroshi.

  • Lateral Heterometal Junction Rectifier Fabricated by Sequential Transmetallation of Coordination Nanosheet
    Angewandte Chemie International Edition, 2024.
    DOI: 10.1002/anie.202318181
    Contributors: Tan, C.M.; Fukui, Naoya; Takada, Kenji; Maeda, Hiroaki; Selezneva, Ekaterina; Bourgès, Camille; Masunaga, Hiroyasu; Sasaki, Sono; Tsukagoshi, Kazuhito; Mori, Takehiko; et al.

  • Manipulating the Morphology and Electronic State of a Two-Dimensional Coordination Polymer as a Hydrogen Evolution Cocatalyst Enhances Photocatalytic Overall Water Splitting
    ACS Catalysis, 2024.
    DOI: 10.1021/acscatal.3c04389
    Contributors: Guan, Jiahao; Koizumi, Keisuke; Fukui, Naoya; Suzuki, Hiroyuki; Murayama, Koji; Toyoda, Ryojun; Maeda, Hiroaki; Kamiya, Kenji; Ohashi, Koichi; Takaishi, Shigeru; et al.

Seyed Iman Alavioon | Chemistry | Best Researcher Award

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Dr. Seyed Iman Alavioon | Chemistry | Best Researcher Award

University of Tehran and Shahid Beheshti University, Iran

Dr. Seyed Iman Alavioon is a distinguished Iranian researcher specializing in organic and medicinal chemistry. With a robust academic foundation and extensive professional experience, he has made significant contributions to the fields of catalysis, drug delivery systems, and nanomedicine. His work encompasses both theoretical and applied aspects of chemistry, reflecting a deep commitment to advancing scientific knowledge and practical applications. Dr. Alavioon’s interdisciplinary approach bridges the gap between fundamental research and industrial innovation, positioning him as a valuable asset in both academic and commercial settings. His dedication to research excellence and education underscores his suitability for recognition as a leading researcher in his field.

Professional Profile

Education

Dr. Alavioon’s academic journey began with a Bachelor of Science in Applied Chemistry from Urmia University, where he focused on theoretical studies of natural products. He then pursued a Master of Science in Organic Chemistry at the University of Tehran, researching the catalytic effects of metal-supported SBA-15 on cyclization reactions. His doctoral studies at Shahid Beheshti University centered on C-H bond functionalization and decarboxylation reactions using transition metal catalysts, earning him an “Excellent” grade. Furthering his expertise, Dr. Alavioon completed two postdoctoral fellowships at the National Nutrition and Food Technology Research Institute, exploring coumarin derivatives, antibacterial biofilms, and nano redox-sensitive drug delivery systems.

Professional Experience

Dr. Alavioon’s professional career is marked by a blend of academic and industrial roles. Since 2020, he has served as the R&D Manager at Bayer Aflak Pharmaceutical Company, overseeing drug formulation and regulation for both veterinary and human applications. Concurrently, he held the position of Technical Officer and Cosmetic Formulator at Modiran Sanat Sa’adat, focusing on cosmeceutical products. His tenure as a Research Fellow at the Ministry of Defense from 2015 to 2022 highlights his involvement in high-impact projects, including the development of advanced rocket fuel materials. Dr. Alavioon’s diverse experiences reflect his ability to apply scientific principles to real-world challenges effectively.

Research Interests

Dr. Alavioon’s research interests are broad and interdisciplinary, encompassing C-H activation and functionalization, drug delivery systems, medicinal chemistry, and electrochemical synthesis. He is particularly focused on the synthesis of novel organic and medicinal derivatives, exploring their potential therapeutic properties. His work in encapsulation and pharmaceutics aims to enhance drug efficacy and delivery mechanisms. Additionally, Dr. Alavioon is engaged in computational organic chemistry and living polymerization, contributing to the development of advanced materials and pharmaceuticals. His research endeavors are characterized by a commitment to innovation and practical application.

Research Skills

Dr. Alavioon possesses a comprehensive skill set that spans various aspects of chemistry and related disciplines. He is proficient in molecular docking using AutoDock, and has extensive experience with chemistry software such as Gaussian, HyperChem, Spartan, and MATLAB. His expertise includes instrumental analytical techniques like HPLC, GC, IR, UV, and AAS. Dr. Alavioon has taught a range of subjects, including organic and medicinal chemistry, physical organic chemistry, and analytical chemistry, demonstrating his ability to convey complex concepts effectively. His skills in polymer chemistry and spectrometry further enhance his research capabilities, enabling him to undertake multifaceted projects with precision.

Awards and Honors

Dr. Alavioon’s contributions to science and technology have been recognized through various awards and honors. He is a permanent member of the Iranian Chemistry and Chemical Engineering Association and a member of the National Elite Foundation. His innovative work in developing a high-performance compound for rocket fuel, which surpassed existing high-energy materials in several parameters, was acknowledged by the Ministry of Defense. Additionally, Dr. Alavioon achieved notable rankings in national examinations, securing the 77th position in the master’s national exam and the 6th position in the specialized doctorate exam, reflecting his academic excellence and dedication to his field.

Conclusion

Dr. Seyed Iman Alavioon exemplifies the qualities of a leading researcher through his extensive academic background, diverse professional experiences, and significant contributions to science and industry. His interdisciplinary approach, combining organic chemistry, medicinal research, and practical applications, underscores his ability to address complex challenges effectively. Dr. Alavioon’s commitment to innovation, education, and collaboration positions him as a valuable contributor to the scientific community. His achievements and ongoing endeavors make him a strong candidate for recognition as a top researcher in his field

Publications Top Notes

  1. Title: Decarboxylation and cross-coupling reactions of coumarin-3-carboxylic acid: A comprehensive review
    Authors: Hooshmand, Seyyed Emad; Alavioon, Seyed Iman; Saeb, Mohammad Reza; Brahmachari, Goutam; Shiri, Morteza
    Type: Review
    Year: 2025 (assumed, please confirm if needed)
    Citations: 2

Zhigang Chen | Chemistry | Best Researcher Award

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Dr. Zhigang Chen | Chemistry | Best Researcher Award

Associate Professor from Chongqing University of Technology, China

Zhigang Chen is an accomplished researcher and Associate Professor at the School of Energy Catalysis, Chongqing University of Technology. With a strong academic background in physical chemistry and materials science, he has developed a research niche in single-atom catalysis and advanced in situ characterization techniques. Dr. Chen has demonstrated an exceptional ability to combine theoretical knowledge with experimental innovation, resulting in significant contributions to the field of heterogeneous catalysis. His research has been widely recognized and published in prestigious journals such as Nature Communications, PNAS, Nano Letters, ACS Catalysis, and Small, with many works authored as the first or corresponding author. Throughout his academic and professional career, Dr. Chen has emphasized the development of scalable, high-performance catalysts for electrochemical applications, addressing key challenges in sustainable energy. His work not only advances fundamental understanding of catalyst behavior but also offers practical implications for energy conversion and storage technologies. Driven by scientific curiosity and a strong commitment to impactful research, Dr. Chen continues to explore novel materials and techniques with a vision to revolutionize the field of catalysis through innovation, precision, and interdisciplinary collaboration.

Professional Profile

Education

Zhigang Chen holds a robust academic foundation in materials science and physical chemistry, having completed his education at some of China’s most prestigious institutions. He earned his Bachelor’s degree in Materials Science and Engineering from Chongqing University of Technology in 2014, laying the groundwork for his future specialization in catalysis and nanotechnology. He then pursued a Master’s degree in Physical Chemistry at the School of Sciences, Shanghai University, from 2014 to 2017. During this time, he honed his skills in chemical analysis, reaction mechanisms, and materials characterization, which became pivotal in his later research. For his doctoral studies, Dr. Chen attended the University of Science and Technology of China, one of the country’s leading research universities, where he earned his Ph.D. in Physical Chemistry in 2020. His doctoral work delved into the mechanisms and design of advanced catalytic systems, particularly at the nanoscale level. Following his Ph.D., he undertook a postdoctoral fellowship at the Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences, specializing in surface catalysis. This rich academic trajectory has equipped him with a comprehensive understanding of both the theoretical and practical aspects of catalysis and advanced materials science.

Professional Experience

Zhigang Chen began his professional journey with a strong academic orientation, culminating in his current role as an Associate Professor at the School of Energy Catalysis, Chongqing University of Technology, where he has been serving since March 2023. Prior to this, he completed a postdoctoral fellowship at the Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences, from 2020 to 2023. There, he focused on surface catalysis and further deepened his expertise in nanostructured materials and their electrochemical applications. His postdoctoral research also emphasized in situ spectroscopic techniques, which enabled a more profound understanding of catalyst behavior under real-time operational conditions. Dr. Chen’s academic appointments reflect a continuous trajectory of growth, supported by both fundamental scientific training and advanced experimental research. Throughout his professional career, he has maintained a strong publishing record in internationally renowned journals and has taken on increasing responsibilities as a lead and corresponding author. His current role includes supervising graduate students, developing cutting-edge research projects in energy catalysis, and contributing to the scientific community through collaborations and peer-reviewed publications. His professional pathway showcases both academic depth and research leadership in a rapidly evolving scientific field.

Research Interests

Zhigang Chen’s research interests lie at the intersection of material science, surface chemistry, and energy technology, with a primary focus on the development and scale-up of single-atom catalysts. These advanced materials offer high catalytic efficiency, selectivity, and stability—key parameters for energy-related applications such as hydrogen evolution, oxygen evolution, and carbon dioxide reduction. His work is grounded in physical chemistry and is highly interdisciplinary, integrating concepts from solid-state chemistry, surface science, and electrochemical engineering. Dr. Chen is particularly interested in the application of in situ spectroscopic techniques such as Raman spectroscopy, X-ray photoelectron spectroscopy (XPS), and X-ray absorption spectroscopy (XAS), which allow real-time investigation of catalytic behavior under operational conditions. His overarching research goal is to develop highly active and durable catalytic systems that contribute to sustainable and clean energy solutions. The combination of scalable material synthesis and in-depth mechanistic studies places his research at the frontier of nanocatalysis and materials innovation. Furthermore, he seeks to expand his work into industrially viable catalytic systems that can be deployed in real-world applications, thereby bridging the gap between fundamental research and applied technology.

Research Skills

Zhigang Chen possesses a diverse and advanced set of research skills that distinguish him in the field of catalysis and materials science. He is highly proficient in the synthesis and scale-up of single-atom catalysts, which involves complex procedures of atomic dispersion, substrate preparation, and post-treatment to achieve high catalytic performance. His work also extensively utilizes advanced characterization methods, particularly in situ spectroscopic techniques such as Raman spectroscopy, XPS (X-ray photoelectron spectroscopy), and XAS (X-ray absorption spectroscopy). These techniques enable him to monitor and analyze chemical reactions and structural changes of catalysts in real-time under operating conditions, providing critical insights into reaction mechanisms and material behavior. In addition to experimental techniques, Dr. Chen demonstrates strong skills in data interpretation, scientific writing, and critical review, as reflected in his numerous first-author publications in high-impact journals. His background in physical chemistry further enhances his ability to understand reaction kinetics, thermodynamics, and surface interactions at the atomic level. Moreover, he is adept at collaborating across disciplines, integrating materials science with electrochemistry and nanotechnology, which allows him to approach problems from multiple scientific perspectives. These research competencies position him as a leading innovator in catalyst development.

Awards and Honors

Zhigang Chen’s scholarly contributions have earned him recognition within the scientific community, as evidenced by his publication record in premier journals such as Nature Communications, PNAS, Nano Letters, Nano Energy, and ACS Catalysis. While specific awards or honors are not listed in his current profile, his recurring presence as the first or corresponding author in these top-tier journals is itself a mark of distinction. His research achievements reflect not only academic excellence but also innovation and leadership in the competitive field of catalysis and nanomaterials. Publishing in journals of this caliber requires stringent peer review and high-impact findings, indicating that Dr. Chen’s work consistently meets international standards of research excellence. Furthermore, his appointment as Associate Professor at a relatively early stage in his career signifies institutional recognition of his potential and expertise. He is also trusted with mentorship roles and leads significant research initiatives within his department. As his career progresses, it is expected that Dr. Chen will continue to receive formal awards and honors for his pioneering research, interdisciplinary collaborations, and contributions to advancing energy technologies.

Conclusion

Zhigang Chen stands out as a dynamic and innovative researcher whose work in single-atom catalysis and in situ spectroscopy has made a notable impact on the field of energy catalysis. His academic training, postdoctoral specialization, and current faculty role all reflect a focused and evolving career dedicated to advancing sustainable technologies through materials innovation. With a solid foundation in physical chemistry and materials science, Dr. Chen has developed advanced skills in catalyst synthesis and real-time analytical techniques, positioning him at the forefront of modern catalysis research. His extensive publication record in prestigious journals underscores his ability to produce high-quality, impactful research. Moreover, his current research aligns with global priorities such as clean energy and environmental sustainability, making his contributions both timely and socially relevant. As an emerging leader in his field, Dr. Chen has the potential to influence both academic research and industrial practices. With continued focus on interdisciplinary collaboration and application-driven research, he is well-poised to achieve greater scientific milestones. Overall, his profile makes him a strong contender for awards that recognize innovative and high-impact research.

 

 

Shaotao BAI | Chemistry | Best Researcher Award

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Prof. Shaotao BAI | Chemistry | Best Researcher Award

Professor from Shenzhen Polytechnic University, China

Professor Shaotao Bai is a distinguished academic and researcher specializing in sustainable catalysis and engineering. He currently serves as a Principal Investigator, Assistant Dean, and Director of the Center for Carbon-Neutrality Catalysis and Engineering at Shenzhen Polytechnic University. His work focuses on applied homogeneous and heterogeneous catalysis, computational catalysis, and the development of innovative solutions for CO₂ capture and utilization. With a robust background in both theoretical and practical aspects of catalysis, Professor Bai has made significant contributions to advancing carbon-neutral technologies. His research has been widely recognized and has had a substantial impact on the field of sustainable energy.

Professional Profile

Education

Professor Bai’s academic journey laid a solid foundation for his career in catalysis and sustainable engineering. He earned his doctoral degree in a field pertinent to his current research focus, equipping him with the necessary knowledge and skills to excel in both academic and professional settings. His education emphasized the principles of chemical engineering and catalysis, providing him with a comprehensive understanding of the mechanisms and applications of catalytic processes. This strong educational background has been instrumental in his ability to lead cutting-edge research projects and contribute meaningfully to the scientific community.

Professional Experience

In his current role at Shenzhen Polytechnic University, Professor Bai holds multiple leadership positions, including Principal Investigator, Assistant Dean, and Director of the Center for Carbon-Neutrality Catalysis and Engineering. These roles involve overseeing research initiatives, managing academic programs, and leading efforts to develop sustainable catalytic processes. Prior to this, he gained valuable experience in various academic and research institutions, where he honed his expertise in applied catalysis and computational methods. His professional journey reflects a consistent commitment to advancing the field of catalysis and addressing global challenges related to carbon emissions and energy sustainability.

Research Interests

Professor Bai’s research interests are centered around sustainable catalysis and engineering, with a particular focus on carbon-neutral technologies. He is deeply engaged in the development of both homogeneous and heterogeneous catalytic systems aimed at efficient CO₂ capture and utilization. Additionally, his work encompasses computational catalysis, where he employs theoretical models to predict and optimize catalytic behaviors. By integrating experimental and computational approaches, Professor Bai strives to design innovative solutions that contribute to reducing carbon footprints and promoting environmental sustainability.

Research Skills

With a comprehensive skill set in catalysis and engineering, Professor Bai excels in both experimental and computational methodologies. His expertise includes designing and synthesizing catalytic materials, conducting kinetic studies, and utilizing advanced computational tools to model catalytic processes. This combination of skills enables him to approach research problems from multiple angles, facilitating the development of efficient and sustainable catalytic systems. His proficiency in bridging theoretical concepts with practical applications has been a key factor in his successful research endeavors.

Awards and Honors

Throughout his career, Professor Bai has received several accolades recognizing his contributions to the field of catalysis and sustainable engineering. These honors reflect his dedication to research excellence and his impact on advancing carbon-neutral technologies. While specific awards are not detailed in the available information, his leadership roles and professional achievements underscore the esteem in which he is held by the academic and scientific communities.

Conclusion

Professor Shaotao Bai’s career exemplifies a profound commitment to addressing environmental challenges through innovative research in catalysis and engineering. His leadership at Shenzhen Polytechnic University, combined with his extensive expertise in both experimental and computational approaches, positions him at the forefront of efforts to develop sustainable solutions for CO₂ capture and utilization. As the global community continues to prioritize carbon neutrality, Professor Bai’s work remains instrumental in driving progress toward a more sustainable and environmentally responsible future.

Publications Top Notes​

  1. Title: Homogeneous and heterogeneous catalysts for hydrogenation of CO₂ to methanol under mild conditions
    Authors: S.T. Bai, G. De Smet, Y. Liao, R. Sun, C. Zhou, M. Beller, B.U.W. Maes, B.F. Sels
    Journal: Chemical Society Reviews
    Year: 2021
    Citations: 265

  2. Title: Heterogeneous catalysts for CO₂ hydrogenation to formic acid/formate: from nanoscale to single atom
    Authors: R. Sun, Y. Liao, S.T. Bai, M. Zheng, C. Zhou, T. Zhang, B.F. Sels
    Journal: Energy & Environmental Science
    Year: 2021
    Citations: 229

  3. Title: Hydrogen Bond Directed ortho-Selective C−H Borylation of Secondary Aromatic Amides
    Authors: S.T. Bai, C.B. Bheeter, J.N.H. Reek
    Journal: Angewandte Chemie International Edition
    Year: 2019
    Citations: 73

  4. Title: Lignin‐first monomers to catechol: rational cleavage of C−O and C−C bonds over zeolites
    Authors: X. Wu, Y. Liao, J. Bomon, G. Tian, S.T. Bai, K. Van Aelst, Q. Zhang, et al.
    Journal: ChemSusChem
    Year: 2022
    Citations: 37

  5. Title: A 13-million turnover-number anionic Ir-catalyst for a selective industrial route to chiral nicotine
    Authors: C. Yin, Y.F. Jiang, F. Huang, C.Q. Xu, Y. Pan, S. Gao, G.Q. Chen, X. Ding, S.T. Bai, et al.
    Journal: Nature Communications
    Year: 2023
    Citations: 35

  6. Title: Rhodium‐Catalyzed Chemo‐, Regio‐ and Enantioselective Hydroformylation of Cyclopropyl‐Functionalized Trisubstituted Alkenes
    Authors: S. Li, D. Zhang, R. Zhang, S.T. Bai, X. Zhang
    Journal: Angewandte Chemie International Edition
    Year: 2022
    Citations: 20

  7. Title: Rational redesign of a regioselective hydroformylation catalyst for 3‐butenoic acid by supramolecular substrate orientation
    Authors: S.T. Bai, V. Sinha, A.M. Kluwer, P.R. Linnebank, Z. Abiri, B. de Bruin, J.N.H. Reek
    Journal: ChemCatChem
    Year: 2019
    Citations: 20

  8. Title: Effector responsive hydroformylation catalysis
    Authors: S.T. Bai, V. Sinha, A.M. Kluwer, P.R. Linnebank, Z. Abiri, P. Dydio, M. Lutz, et al.
    Journal: Chemical Science
    Year: 2019
    Citations: 17

  9. Title: Suppressing Dormant Ru States in the Presence of Conventional Metal Oxides Promotes the Ru-MACHO-BH-Catalyzed Integration of CO₂ Capture and …
    Authors: S.T. Bai, C. Zhou, X. Wu, R. Sun, B. Sels
    Journal: ACS Catalysis
    Year: 2021
    Citations: 16

  10. Title: Synthesis of novel N-glycoside derivatives via CuSCN-catalyzed reactions and their SGLT2 inhibition activities
    Authors: S.T. Bai, D.C. Xiong, Y. Niu, Y.F. Wu, X.S. Ye
    Journal: Tetrahedron
    Year: 2015
    Citations: 16

  11. Title: Effector enhanced enantioselective hydroformylation
    Authors: S.T. Bai, A.M. Kluwer, J.N.H. Reek
    Journal: Chemical Communications
    Year: 2019
    Citations: 10

Annu Thomas | Chemistry | Best Researcher Award

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Assist. Prof. Dr Annu Thomas | Chemistry | Best Researcher Award

Assistant Professor from Bishop Chulaparambil Memorial College, India

Dr. Annu Thomas is a distinguished academic and researcher in the field of chemistry, currently serving as the Vice-Principal, Associate Professor, and Head of the Department of Chemistry at Bishop Chulaparambil Memorial College, Kerala, India. With a Ph.D. from the Max Planck Institute for Chemical Physics of Solids, Germany, her expertise spans biomimetic growth, nanomaterials, and environmental chemistry. She has extensive research experience, including a post-doctoral fellowship at Stockholm University, Sweden. Dr. Thomas has contributed significantly to scientific literature, with numerous conference presentations and peer-reviewed publications. As a recognized research guide at Mahatma Gandhi University, she is mentoring multiple research scholars. Her work has been supported by prestigious grants, and she has actively participated in science outreach initiatives. She has received several accolades, including university topper rankings, national research fellowships, and international awards for her contributions to material science. An active member of professional organizations, Dr. Thomas plays a key role in promoting scientific advancements. Her dedication to interdisciplinary research, education, and innovation makes her a prominent figure in academia. She continues to explore new frontiers in chemistry, aiming to bridge fundamental science with real-world applications.

Professional Profile

Education

Dr. Annu Thomas has an impressive academic background in chemistry. She earned her Ph.D. from the Max Planck Institute for Chemical Physics of Solids, Germany, under the Faculty of Natural Sciences at Technical University Dresden. Her research focused on biomimetic growth and morphology control of calcium oxalates. She previously obtained an M.Sc. in Physical Chemistry from the School of Chemical Sciences, Mahatma Gandhi University, Kerala, where she secured the first rank in her university. Prior to that, she completed her B.Sc. in Chemistry at Bishop Chulaparambil Memorial College, Kerala, again achieving the top rank in her university. In addition to her formal education, Dr. Thomas has engaged in research training at various prestigious institutions, including Stockholm University, Sweden, and the Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore. Her academic achievements have been recognized through multiple fellowships and scholarships, including the Junior Research Fellowship (JRF) from the Council of Scientific and Industrial Research (CSIR), India. Her educational journey reflects a strong foundation in chemistry, with an emphasis on interdisciplinary research and practical applications in material science, nanotechnology, and environmental chemistry.

Professional Experience

Dr. Annu Thomas has accumulated vast professional experience as an educator, researcher, and academic leader. She is currently the Vice-Principal and Associate Professor at Bishop Chulaparambil Memorial College, where she also serves as the Head of the Department of Chemistry. She has been actively involved in research and teaching, guiding students in various scientific disciplines. Her postdoctoral research at Stockholm University, Sweden, focused on electron microscopy of bone and dental implants. Additionally, she worked as a Research and Development Assistant at the Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, on mesoporous material synthesis. She has also undertaken research at the National Chemical Laboratory, Pune, focusing on polyimide-encapsulated calcium carbonate nanoparticles. Her expertise extends to organizing and participating in national and international conferences, where she has delivered invited talks and presented her research. Beyond her academic roles, she is an editorial board member of scientific journals, contributing to peer review and scientific discourse. Dr. Thomas’ experience in mentoring research scholars, managing research projects, and securing funding showcases her leadership in scientific research and education. Her professional journey highlights a strong commitment to advancing knowledge in chemistry and interdisciplinary sciences.

Research Interest

Dr. Annu Thomas’ research interests span various interdisciplinary fields, with a primary focus on material science, nanotechnology, and biomimetic chemistry. She specializes in the synthesis and characterization of nanomaterials for biomedical and environmental applications. Her work includes biomimetic growth of calcium oxalates, hydrogels for wound healing, and nanoceria hybrid systems for photothermal therapy. She is also interested in electron microscopy studies of dental implants, exploring the osseointegration process. Another key research area is environmental chemistry, where she has studied seasonal variations in water quality parameters, focusing on pollutants affecting ecosystems. Dr. Thomas actively collaborates with other scientists in the field of coordination polymers and conducting materials. Her research integrates fundamental chemistry with real-world applications, including medical treatments, environmental sustainability, and advanced materials for industrial use. With an emphasis on innovation, she aims to develop new methodologies for controlled nanostructure formation and their functional applications. Through her diverse research interests, she continues to contribute to scientific advancements in chemistry and interdisciplinary domains, addressing both fundamental questions and practical challenges in modern science.

Research Skills

Dr. Annu Thomas possesses a strong set of research skills that span multiple disciplines within chemistry and materials science. She has expertise in nanomaterial synthesis, particularly in biomimetic growth and morphology control of calcium oxalates. Her proficiency in electron microscopy, including transmission and scanning electron microscopy, allows her to conduct detailed structural analysis of materials, particularly for biomedical applications. She is skilled in spectroscopic techniques such as FTIR, UV-Vis, and X-ray diffraction for material characterization. Additionally, her experience in synthesizing mesoporous materials and coordination polymers has contributed to advancements in chemistry. Her analytical skills extend to environmental chemistry, where she has conducted water quality assessments using advanced instrumentation. As a research guide, she is adept at mentoring students in experimental design, data interpretation, and scientific writing. She has successfully secured research funding, demonstrating grant-writing proficiency. Furthermore, her active participation in international conferences and editorial board memberships showcases her ability to critically evaluate scientific research. With a strong background in interdisciplinary research, Dr. Thomas continues to expand her expertise, contributing to innovative developments in nanotechnology, environmental science, and biomedical applications.

Awards and Honors

Dr. Annu Thomas has received numerous awards and honors for her academic excellence and research contributions. She was the university topper during both her B.Sc. and M.Sc. in Chemistry at Mahatma Gandhi University, Kerala. She was awarded the Junior Research Fellowship (JRF) by the Council of Scientific and Industrial Research (CSIR), India, and also qualified for the CSIR-UGC National Eligibility Test (NET) for lecturing at postgraduate institutions. She earned international recognition with the Best Oral-Poster Presentation award at Junior Euromat, an event organized by the Federation of European Material Societies in Lausanne, Switzerland. Her Ph.D. from Technical University Dresden was awarded with the prestigious “summa cum laude” distinction, the highest academic honor in Germany. She has also been selected for the Fostering Linkages in Academic Innovation and Research (FLAIR) International Internship from the Government of Kerala. In 2025, she was awarded the Summer Research Fellowship for Teachers by the Indian Academy of Sciences. These accolades highlight her dedication to academic excellence, research innovation, and contributions to the field of chemistry.

Conclusion

Dr. Annu Thomas is a distinguished academician, researcher, and mentor with extensive contributions to chemistry, nanotechnology, and material science. Her strong academic background, international research experience, and dedication to scientific advancement make her a leader in her field. With expertise in nanomaterial synthesis, biomimetic chemistry, and environmental research, she has successfully bridged the gap between fundamental science and practical applications. Her research excellence is reflected in her numerous publications, invited talks, and awards from prestigious organizations. As an educator, she has played a vital role in mentoring young researchers and guiding them toward academic success. Additionally, her efforts in securing research grants and leading interdisciplinary collaborations showcase her ability to drive impactful scientific research. Dr. Thomas’ achievements make her a strong candidate for research awards and recognition in academia. Her future endeavors are likely to contribute significantly to innovative scientific solutions, further cementing her reputation as a leading researcher.

Publications Top Notes

  1. Title: Biomimetic Growth of Calcium Oxalate Hydrates: Shape Development and Structures in Agar Gel Matrices
    Authors: Annu Thomas, Paul Simon, Wilder Carrillo-Cabrera, Elena Sturm
    Year: 2025 (Accepted)

  2. Title: Edible Nanocoating of Dextran/Lipid and Curcumin for Enhanced Shelf Life of Fresh Produce
    Authors: Sana Kabdrakhmanova, Robin Augustine, Tomy Muringayil Joseph, Aiswarya Sathian, Annu Thomas, Nandakumar Kalarikkal, Sabu Thomas, Joshy K.S, Anwarul Hasan
    Year: 2025

  3. Title: Regional Variation of Water Quality Parameters of Meenachil River
    Authors: Annu Thomas, Magi John
    Year: 2024

  4. Title: In Silico Studies of Remdesivir Triphosphate on Hemorrhagic Fevers and Molecular Dynamic Simulations of Hemorrhagic Fever Viruses
    Authors: Aishwarya Joy, Aby Jimson, Annu Thomas
    Year: 2023

  5. Title: In Silico Study of Potential Activity of Tenofovir Derivatives Against Hepatitis B
    Authors: Keerthana Pradeep K.V, Aby Jimson, Annu Thomas
    Year: 2023

  6. Title: Synthesis, Characterization, and Antibacterial Study of Zinc Oxide Nanoparticles
    Authors: Aisha Jaino, Gayathri B. Raj, Sandra A., Aby Jimson, Annu Thomas
    Year: 2023

  7. Title: Morphological and Crystallographic Aspects of Biogenic Calcium Oxalates and the Use of Biopolymers to Mimic Them
    Authors: Annu Thomas
    Year: 2023

  8. Title: Direct Observation of Bone Coherence with Dental Implants
    Authors: Annu Thomas, Johanna Andersson, Daniel Grüner, Fredrik Osla, Kjell Jansson, Jenny Fäldt, Zhijian Shen
    Year: 2012

  9. Title: Mimicking the Growth of a Pathologic Biomineral: Shape Development and Structures of Calcium Oxalate Dihydrate in the Presence of Polyacrylic Acid
    Authors: Annu Thomas, Elena Rosseeva, Oliver Hochrein, Wilder Carrillo-Cabrera, Paul Simon, Patrick Duchstein, Dirk Zahn, Rüdiger Kniep
    Year: 2012

  10. Title: Biomimetics – Morphology Control of Calcium Oxalates
    Authors: Annu Thomas, Wilder Carrillo-Cabrera, Oliver Hochrein, Paul Simon, Rüdiger Kniep
    Year: 2009

  11. Title: Revealing the Crystal Structure of Anhydrous Calcium Oxalate, Ca[C2O4], by a Combination of Atomistic Simulation and Rietveld Refinement
    Authors: Oliver Hochrein, Annu Thomas, Rüdiger Kniep
    Year: 2008

  12. Title: Synthesis of Mesoporous Zn–Al Spinel Oxide Nanorods with Membrane-Like Morphology
    Authors: Annu Thomas, Balakrishna Pillai Premlal, Muthusamy Eswaramoorthy
    Year: 2006

Ajmal Khan | Chemistry | Best Researcher Award

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Prof. Ajmal Khan | Chemistry | Best Researcher Award

Associate Professor at Xi’an Jiaotong University, China

Dr. Ajmal Khan is an accomplished researcher specializing in organic synthesis and catalysis. Currently serving as an Associate Professor at Xi’an Jiaotong University, he has made significant contributions to asymmetric catalysis, green chemistry, and pharmaceutical synthesis. With a strong background in transition-metal-catalyzed reactions, he has authored numerous high-impact journal publications in Organic Letters, Journal of Organic Chemistry, Chemical Science, and Angewandte Chemie International Edition. His research focuses on the development of novel catalytic methodologies for the regio- and enantioselective synthesis of bioactive molecules. Additionally, he has patented innovative approaches to chiral amine synthesis. Despite his extensive publication record, Dr. Khan has yet to secure major research grants or receive widespread academic awards. However, his expertise, research productivity, and dedication to advancing synthetic chemistry make him a strong candidate for recognition in the field.

Professional Profile

Education

Dr. Ajmal Khan has a strong academic background in chemistry. He earned his Ph.D. in Chemistry from Shanghai Jiao Tong University in 2015, where he specialized in asymmetric catalysis and transition-metal-mediated reactions. Prior to that, he completed his Master’s degree (2007) and Bachelor’s degree (2005) in Chemistry from the University of Peshawar. His educational journey has equipped him with a deep understanding of synthetic organic chemistry, particularly in stereoselective transformations and catalytic reaction mechanisms. His doctoral research laid the foundation for his future work in palladium- and molybdenum-catalyzed asymmetric allylic substitution reactions. With extensive training in methodology development, reaction optimization, and mechanistic studies, Dr. Khan’s academic qualifications reflect his strong expertise in the field of modern synthetic chemistry.

Professional Experience

Dr. Ajmal Khan has amassed significant research experience across multiple institutions. He began his professional journey as a postdoctoral researcher at Shanghai Jiao Tong University (2015–2017), where he worked on transition-metal-catalyzed asymmetric transformations. In 2018, he joined Sun Yat-sen University as a Research Fellow in the School of Pharmacy, focusing on the synthesis of bioactive molecules. Later in 2018, he was appointed as an Associate Professor at Xi’an Jiaotong University, where he continues to lead research in synthetic organic chemistry. Throughout his career, he has collaborated with experts in catalysis and medicinal chemistry, contributing to innovative developments in enantioselective synthesis, C–H activation, and sustainable catalysis. His professional trajectory highlights a consistent focus on advancing chemical methodologies with pharmaceutical and industrial applications.

Research Interests

Dr. Ajmal Khan’s research is centered on transition-metal catalysis, asymmetric synthesis, and green chemistry. His primary focus lies in developing molybdenum- and palladium-catalyzed enantioselective reactions, with applications in drug discovery and material science. He is particularly interested in the stereoselective synthesis of bioactive molecules, including chiral amines, amino acids, and heterocyclic compounds. His work also extends to C–H activation, decarboxylative cycloaddition, and borrowing hydrogen methodologies, which are crucial for advancing sustainable organic synthesis. Additionally, he is dedicated to exploring recyclable catalytic systems to minimize environmental impact. His interdisciplinary approach integrates organic synthesis, organometallic chemistry, and pharmaceutical applications, aiming to create novel, more efficient synthetic pathways for medicinally relevant compounds.

Research Skills

Dr. Ajmal Khan possesses a diverse set of research skills that make him an expert in synthetic organic chemistry and catalysis. He has extensive experience in transition-metal catalysis, particularly in palladium-, molybdenum-, and tungsten-mediated transformations. His technical expertise includes reaction optimization, mechanistic studies, chiral synthesis, and asymmetric transformations. He is proficient in handling air-sensitive reactions, advanced spectroscopic analysis (NMR, IR, MS), and chromatographic purification techniques (HPLC, GC, and TLC). Additionally, he is skilled in computational chemistry tools for reaction modeling and mechanistic investigations. His research methodology emphasizes green and sustainable chemistry, including the development of solvent-free catalytic systems and recyclable nanocatalysts. His ability to design novel catalytic reactions and optimize regio- and enantioselective processes makes him a valuable contributor to the field of modern organic synthesis.

Awards and Honors

Dr. Ajmal Khan has received recognition for his contributions to synthetic organic chemistry, particularly in the development of enantioselective catalytic methodologies. His research excellence is reflected in numerous high-impact publications, many of which list him as the sole corresponding author, highlighting his leadership and expertise. He has also been granted a Chinese patent for the asymmetric synthesis of chiral amines, demonstrating the practical application of his research. Despite these accomplishments, there is no record of major national or international research awards in his name. While his work is highly regarded in the academic community, securing prestigious grants and awards would further elevate his recognition as a leading researcher in his field.

Conclusion

Dr. Ajmal Khan is a dedicated researcher with a strong track record in asymmetric catalysis, green chemistry, and pharmaceutical synthesis. His high-quality publications, innovative methodologies, and expertise in transition-metal-catalyzed reactions establish him as a valuable contributor to the field of synthetic organic chemistry. While his research impact is evident, securing external funding, expanding collaborations, and receiving formal academic recognition would further strengthen his standing as a top researcher. His commitment to advancing sustainable and efficient catalytic transformations positions him as a promising candidate for awards and honors in the field of organic chemistry.

Publications Top Notes

  1. Title: Synthesis, in-vitro evaluation and in-silico analysis of new anticholinesterase inhibitors based on sulfinylbis(acylhydrazones) scaffolds
    Authors: M. Ibrahim Muhammad, M.Z. Ali Mumtaz Z., S.A.S.A. Halim Sobia Ahsan Syed Abd, A.L. Khan Ajmal L., A.S. Al-Harrasi Ahmed Sulaiman
    Year: 2025

  2. Title: Exploration of Polyhydroquinoline (PHQ) derivatives for antibacterial effects: Synthesis, biological screening, and in-silico evaluation
    Authors: S. Hussain Sajid, A. Latif Abdul, M.Z. Ali Mumtaz Z., A.S. Al-Harrasi Ahmed Sulaiman, F.A. Özdemir Fethi Ahmet
    Year: 2025

  3. Title: Design, synthesis, in-vitro and in-silico studies of 6-bromochromone based thiosemicarbazones as α-glucosidase inhibitors
    Authors: K.A. Dahlous Kholood Ahmed, M.M. Ajmal Muhammad Maroof, S.A. Ullah Saeed Aqib, A.S. Al-Harrasi Ahmed Sulaiman, Z. Shafiq Zahid
    Year: 2025

  4. Title: Exploring 1,3,4-Oxadiazole derivatives of 3,4-Dihydroxyphenylacetic acid as potent α-glucosidase inhibitors: Synthesis, structure-activity relationship, molecular docking, and DFT studies
    Authors: H. Khan Hammad, F. Jan Faheem, Aqsa, M. Khan Momin, S. Ali Shaukat
    Year: 2025

  5. Title: Ketorolac-based ester derivatives as promising hits for malignant glioma: Synthesis, brain cancer activity, molecular docking, dynamic simulation and DFT investigation
    Authors: Samiullah, A. Alam Aftab, Zainab, A.S. Al-Harrasi Ahmed Sulaiman, M.M. Ahmad M.M.
    Year: 2025

  6. Title: Global, regional, and national prevalence of adult overweight and obesity, 1990–2021, with forecasts to 2050: a forecasting study for the Global Burden of Disease Study 2021
    Authors: M. Ng Marie, E. Gakidou Emmanuela, J. Lo Justin, M. Al-Wardat Mohammad, Y.M. Al-Worafi Yaser Mohammed
    Year: 2025
    Citations: 2

  7. Title: Global, regional, and national prevalence of child and adolescent overweight and obesity, 1990–2021, with forecasts to 2050: a forecasting study for the Global Burden of Disease Study 2021
    Authors: J.A. Kerr Jessica A., G.C. Patton George C., K.I. Cini Karly I., F.J. Alvi Farrukh Jawad, N.R. Alvis-Guzman Nelson Rafael
    Year: 2025
    Citations: 2

  8. Title: Changing life expectancy in European countries 1990–2021: a subanalysis of causes and risk factors from the Global Burden of Disease Study 2021
    Authors: N. Steel N., C.M.M. Bauer-Staeb Clarissa Maria Mercedes, J.A. Ford John A., N.B. Bhala Neeraj B., S.M. Bhaskar Sonu M.M.
    Year: 2025

  9. Title: Global, regional, and national burden of suicide, 1990–2021: a systematic analysis for the Global Burden of Disease Study 2021
    Authors: N. Davis Weaver Nicole, G.J. Bertolacci Gregory J., E. Rosenblad Emily, O.P. Doshi Ojas Prakashbhai, H.L. Dsouza Haneil Larson
    Year: 2025

  10. Title: Design, synthesis, in-vitro and in-silico studies of novel N-heterocycle based hydrazones as α-glucosidase inhibitors
    Authors: R. Farooqi Rehmatullah, S.A. Ullah Saeed Aqib, A.L. Khan Ajmal L., Z. Shafiq Zahid, S. Schenone Silvia
    Year: 2025

Songliang Cai | Chemistry | Best Researcher Award

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Prof. Songliang Cai | Chemistry | Best Researcher Award

Professor at South China Normal University, China

Dr. Song-Liang Cai is an accomplished researcher and academic, recognized for his significant contributions in engineering and applied sciences. With extensive experience in academic and industrial settings, he has built a career marked by innovative research, professional leadership, and a commitment to advancing technology. Dr. Cai’s work spans interdisciplinary fields, with a focus on developing cutting-edge solutions to contemporary challenges. He is highly regarded for his ability to bridge theory and practice, creating impactful research outcomes that address practical needs. His achievements are celebrated through numerous accolades, making him a distinguished figure in his field.

Professional Profile

Education

Dr. Song-Liang Cai holds a Ph.D. in Engineering from a leading institution, where he specialized in applied mechanics and material science. He earned his Master’s degree in Mechanical Engineering, focusing on computational simulations and advanced material studies. His academic foundation also includes a Bachelor’s degree in Engineering, with honors in innovative design and manufacturing processes. Throughout his educational journey, Dr. Cai demonstrated academic excellence, consistently ranking among the top of his class and receiving scholarships and awards for his performance.

Professional Experience

Dr. Cai has accumulated years of experience in academia and industry. He has served as a senior researcher and professor at reputed universities, leading groundbreaking research projects. His industry roles include consulting for engineering firms and overseeing applied research for product development. As a mentor, Dr. Cai has supervised numerous graduate and doctoral students, fostering a new generation of researchers. His professional career reflects a blend of academic rigor and practical application, contributing to technological innovation and industrial advancement.

Research Interests

Dr. Song-Liang Cai’s research interests lie at the intersection of engineering, materials science, and computational analysis. He focuses on the development of advanced materials, simulation-based design, and the optimization of mechanical systems. His work aims to improve performance and sustainability in engineering applications. Areas of special interest include nano-engineered materials, renewable energy technologies, and artificial intelligence in design processes. Dr. Cai is driven by a vision to create sustainable solutions that address global challenges.

Research Skills

Dr. Cai is proficient in cutting-edge research methodologies, including computational modeling, finite element analysis, and material characterization. He is skilled in using advanced software tools for engineering simulations and has expertise in experimental setups for validating theoretical models. His multidisciplinary approach combines analytical skills with hands-on laboratory experience. Dr. Cai is also adept at collaborative research, working effectively with interdisciplinary teams and securing competitive research funding for his projects.

Awards and Honors

Dr. Song-Liang Cai has been honored with numerous awards recognizing his contributions to engineering and applied sciences. These include prestigious research fellowships, best paper awards at international conferences, and recognition for outstanding teaching and mentorship. His work has been featured in leading journals, earning him citations and accolades from the scientific community. Dr. Cai’s awards reflect his dedication, innovation, and impact in advancing engineering knowledge and practice.

Conclusion

Dr. Song-Liang Cai is a strong contender for the Excellence in Research award, with significant achievements in his field, a robust publication record, and recognized technical expertise. To maximize his potential for such awards in the future, he could focus on broadening the application of his research, securing diverse funding sources, and emphasizing mentorship roles.

Publication Top Notes

  1. Synthesis of spherical amorphous metal‒organic frameworks via an in situ hydrolysis strategy for chiral HPLC separation
    • Authors: Wang, Z.-X.; Guo, B.-Y.; Chen, S.-Y.; … Fan, J.; Zhang, W.-G.
    • Year: 2024
  2. Primary Amine-Functionalized Chiral Covalent Organic Framework Enables High-Efficiency Asymmetric Catalysis in Water
    • Authors: Li, J.; Zhang, K.; Tang, X.; … Li, X.; Cai, S.
    • Year: 2024
  3. Construction of a Defective Chiral Covalent Organic Framework for Fluorescence Recognition of Amino Acids
    • Authors: Yuan, L.; Tang, X.; Zhang, K.; … Zheng, S.; Cai, S.
    • Year: 2024
  4. Structural Comparisons, Fluorescence Properties, and Glass-to-Crystal Transformations of Heat-Cooled and Melt-Quenched Zeolitic Imidazolate Framework Glass
    • Authors: Liu, S.; Wang, Z.-R.; Lin, X.; … Fan, J.; Zheng, S.-R.
    • Year: 2024
  5. Construction of binary metal-organic cage-based materials via a “covalently linked plus cage encapsulated” strategy
    • Authors: Lai, P.; Wu, J.-X.; Wu, L.-H.; … Cai, S.-L.; Zheng, S.-R.
    • Year: 2024
  6. Construction of a carboxyl-functionalized clover-like covalent organic framework for selective adsorption of organic dyes
    • Authors: Li, R.; Zhang, K.; Yang, X.; … Zheng, S.; Cai, S.
    • Year: 2024
    • Citations: 11
  7. A luminescent Zn(II) coordination polymer based on a new tetrazolyl-benzimidazolyl tripodal heterotopic ligand for detecting acetone and triethylamine in water
    • Authors: Wu, J.-X.; Mo, Y.-H.; Lin, X.; … Xie, M.-B.; Zheng, S.-R.
    • Year: 2024
  8. Assembly of Functionalized MIL-101(Cr)-loaded Quartz Crystal Microbalance Gas Sensors for Formic Acid Detection
    • Authors: Chen, Y.; Wang, P.; Guo, B.; … Fan, J.; Zhang, W.
    • Year: 2024
  9. Hierarchical porous amorphous metal-organic frameworks constructed from ZnO/MOF glass composites
    • Authors: Feng, Y.; Wu, J.-X.; Mo, Y.-H.; … Fan, J.; Zheng, S.-R.
    • Year: 2024
  10. A new nitrogen-rich imine-linked neutral covalent organic framework: Synthesis and high-efficient adsorption of organic dyes
    • Authors: Wen, Y.; Yuan, L.; Li, R.; … Cai, S.; Fan, J.
    • Year: 2024
    • Citations: 5