Bijoy Kumar Mondal | Environmental Chemistry | Best Researcher Award

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Dr. Bijoy Kumar Mondal | Environmental Chemistry | Best Researcher Award

Assistant professor at Department of Chemistry, Uttara High School and College, Bangladesh

Dr. Bijoy Kumar Mondal is an accomplished chemist specializing in sustainable energy and environmental chemistry. With a strong foundation in catalytic materials and waste-to-energy technologies, he has pioneered research in converting waste plastics into fuel-grade hydrocarbons. His innovative work, backed by advanced laboratory expertise and prolific publishing, positions him as a leading figure in green chemistry solutions for energy recovery and environmental protection.

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Education

Dr. Mondal holds a Ph.D. in Chemistry from Jahangirnagar University, Bangladesh, where he was awarded the Best Ph.D. Student Scholarship. Prior to that, he earned an MPhil in Chemistry from Dhaka University of Engineering & Technology and a First-Class Master’s and Honors degree in Chemistry from the National University of Bangladesh. His academic journey reflects a consistent record of excellence and recognition, including the Best Master’s Student Award.

Experience

Dr. Mondal has over 17 years of academic and research experience, currently serving as an Assistant Professor in the Department of Chemistry at Uttara High School and College since 2021. He previously held the roles of Lecturer and Senior Teacher in the same department. Beyond teaching, he serves as an Editor for the Journal of Advanced Chemical Sciences (JACS), and has been a peer reviewer for several reputed international journals such as ACS Omega, Fuel, and the Journal of Materials Science Research and Reviews. His diverse professional engagements underline his commitment to advancing chemical sciences at both educational and industrial levels.

Research Interest

Dr. Mondal’s research focuses primarily on carbon capture and utilization, catalytic pyrolysis of plastics, sol-gel synthesis of catalysts, and waste-to-energy technologies. He also explores the use of doped mesoporous materials and nano-composites for environmental remediation and resource recovery. His studies aim to mitigate environmental hazards by transforming waste into valuable fuel sources, aligning with global goals of sustainability and green energy transition.

Award

Dr. Mondal’s contributions have been recognized internationally. Notably, he received third prize at the International Conference on Emerging Trends in Biological Sciences in 2022. He has also delivered invited talks at global conferences, including in the USA, Canada, France, and India. His research has earned funding consideration from several Bangladeshi government bodies, including the Ministry of Education and the University Grants Commission, demonstrating national and institutional acknowledgment of his impactful work.

Publication

Dr. Mondal has authored numerous high-impact publications. Seven significant ones include:

Recent advancements in carbon capture, utilization, and sequestration technologies (2025, Sustainable Chemistry One World) – Cited by 8 articles.

Fate of waste plastics: A review (2025, Next Research) – Cited by 6 articles.

Sol-gel derived Ti-doped mesoporous silica-alumina: an efficient catalyst… (2023, Journal of Thermal Analysis and Calorimetry) – Cited by 15 articles.

Catalytic pyrolysis of HDPE and LDPE using silica-alumina catalyst (2023, Journal of Bangladesh Academy of Sciences) – Cited by 4 articles.

Waste Plastics-to-Fuel Using Fly Ash Catalyst (2021, Waste Disposal & Sustainable Energy) – Cited by 11 articles.

Catalytic Pyrolysis of Waste Plastics into Liquid Hydrocarbon (2020, Journal of Bangladesh Academy of Sciences) – Cited by 10 articles.

Antibiotic sensitivity for ready-to-eat fish-based bacterial pathogens (2020, Journal of Pharmaceutical and Medicinal Research) – Cited by 3 articles.
These works, spanning experimental and applied chemistry, reflect both scientific depth and societal relevance.

Conclusion

Dr. Bijoy Kumar Mondal exemplifies the qualities of a dedicated, innovative, and globally recognized researcher. His work directly addresses critical global challenges like plastic pollution and energy sustainability through applied chemistry. With a solid record of publication, patent innovation, international collaboration, and teaching, he is a highly suitable and commendable candidate for the Best Researcher Award. Recognizing his work would not only honor his contributions but also inspire further research in sustainable chemical technologies.

Hui-ting Xu | biophysical chemistry | Best Researcher Award

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Dr. Hui-ting Xu | biophysical chemistry | Best Researcher Award

lecturer at Yancheng Teachers University, China

Dr. Hui-ting Xu, currently serving as a lecturer at Yancheng Teachers University, is an emerging scholar in the field of biophysics and molecular simulation. Born in 1997, she earned her Ph.D. from Beijing Normal University in 2023, demonstrating early promise in theoretical and computational research. Since joining academia, she has quickly established herself through her work on DNA conformational transitions, ion-specific interactions, and biophysical modeling. Her contributions are already being recognized across peer-reviewed publications, reflecting a strong trajectory in cutting-edge scientific inquiry.

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Education

Dr. Xu completed her doctoral studies in biophysics at Beijing Normal University in 2023, where she focused on advanced theoretical calculations and molecular dynamics simulations. Her education was rooted in computational modeling, allowing her to gain expertise in the analysis of DNA behavior under various ionic and environmental conditions. This rigorous academic training laid a solid foundation for her contributions to the understanding of structural transitions in biomolecules.

Experience

Since 2023, Dr. Xu has held the position of lecturer at Yancheng Teachers University, where she is involved in both teaching and research. While her academic career is at an early stage, she has demonstrated substantial research capabilities, particularly in the computational biophysics domain. She also holds a professional membership with the Radiation Beam Technology Branch of the Chinese Nuclear Society, showcasing her interdisciplinary engagement and professional commitment. Despite limited formal project experience, her independent research productivity highlights her capacity for innovation and technical skill.

Research Interest

Dr. Xu’s research focuses on the theoretical study of biophysical systems, with a specialization in the interactions between DNA and metal ions, solvation dynamics, and conformational transitions of biomolecules. She is proficient in molecular dynamics tools like GROMACS, CHARMM, and NAMD, using them to model ionic atmospheres and sequence-specific effects on DNA. Her studies on the B-to-A conformational change in DNA, driven by base sequence and metal ion coordination, represent a novel perspective in molecular biology and physics.

Awards

Though Dr. Xu is still at an early stage in her career, her work has already positioned her as a strong candidate for prestigious recognitions such as the “Best Researcher Award.” Her impactful first-author publications and clear research vision distinguish her from many of her peers. She also holds six patents under process, which further underscores her innovative mindset and potential for translational impact in the life sciences.

Publications

Dr. Xu has authored several notable publications, including:

Xu H. et al. (2025). Ion-Specific Binding Law and DNA Conformation, Results in Chemistry, DOI:10.1016/j.rechem.2025.102290 – Cited by 8 articles.

Xu H. (2025). Solvation Effects on DNA Stability, Springer Proceedings in Physics, DOI:10.1007/978-3-030-80924-9_7 – Cited by 4 articles.

Xu H. (2021). Dynamic Modeling of Ionic Atmospheres Around DNA, Journal of Molecular Liquids, DOI:10.1016/j.molliq.2021.117781 – Cited by 13 articles.

Xu H. (2021). Sequence-Dependent DNA Structural Change, Journal of Molecular Liquids, DOI:10.1016/j.molliq.2021.115899 – Cited by 11 articles.

Xu H. (2020). Base-Sequence Regulation of B→A DNA Transitions, Chemical Physics Letters, DOI:10.1016/j.cplett.2020.137344 – Cited by 16 articles.

Co-author (2022). Conformational Transitions in DNA by Ca²+ Coordination, Springer Proceedings in Physics.

Co-author (2020). Electrostatic Modeling in DNA-Ion Interactions, Chinese Physics Letters, DOI:10.1088/0256-307x/37/8/088701 – Cited by 7 articles.
These publications reflect a consistent and specialized focus, with citation metrics showing her increasing impact within the scientific community.

Conclusion 

Given her strong academic foundation, impactful publications, innovative use of simulation tools, and commitment to solving complex problems in biophysics, Dr. Hui-ting Xu is highly suitable for the Best Researcher Award. Her contributions exemplify research excellence, innovation, and scientific leadership, making her an ideal recipient of this honor.