Xin Wang | Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Xin Wang | Chemistry | Best Researcher Award

Zhengzhou University | China

Assoc. Prof. Dr. Xin Wang is an accomplished researcher in the field of chemistry and nanomaterials, with a strong focus on advanced energy storage and conversion systems. His research spans lithium-ion and lithium-sulfur batteries, metal-air batteries, supercapacitors, fuel cells, electrocatalysis, CO₂ reduction, and solar cells. Over the years, he has made significant contributions to the controllable synthesis of alloy-based nanomaterials, the development of high-entropy alloys, and the application of innovative catalysts for electrochemical CO₂ conversion and energy storage. His academic output is substantial, with 52 documents published, garnering 4,164 citations overall (3,400 since 2020), reflecting his consistent influence in the scientific community. He holds an h-index of 32 (30 since 2020) and an i10-index of 52, showcasing both the depth and breadth of his impactful work. His publications in high-impact journals, including Nature Communications, Journal of the American Chemical Society, Advanced Functional Materials, and Journal of Materials Chemistry A, underscore his role as a leading scientist in sustainable energy research. Recognized with multiple awards, fellowships, and competitive research grants, he continues to drive innovation in nanomaterials, electrocatalysis, and green energy technologies, shaping future directions in electrochemistry and materials science.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Cai, M., Dong, Y., Xie, M., Dong, W., Dong, C., Dai, P., Zhang, H., Wang, X., Sun, X., Zhang, S., Yoon, M., Xu, H., Ge, Y., Li, J., & Huang, F. (2023). Stalling oxygen evolution in high-voltage cathodes by lanthurization. Nature Energy, 8(2), 159–168.

Fan, H., Si, Y., Zhang, Y., Zhu, F., Wang, X., & Fu, Y. (2024). Grapevine-like high entropy oxide composites boost high performance lithium sulfur batteries as bifunctional interlayers. Green Energy & Environment, 9(3), 565–572.

Wang, X., Miao, M., Tang, B., Duan, H., Zhu, F., Zhang, H., Zhang, X., Yin, W., & Fu, Y. (2023). Chlorine-induced mixed valence of CuOx/C to promote the electroreduction of carbon dioxide to ethylene. Nano Research, 16(20), 8827–8835.

Zhang, Y., Yu, Q., Wang, X., & Guo, W. (2023). Conversion of nitrogenous small molecules into value-added chemicals by building N–C bonds. Chemical Engineering Journal, 474, 145899.

Chai, D., Yan, H., Wang, X., Li, X., & Fu, Y. (2024). Retuning solvating ability of ether solvent by anion chemistry toward 4.5 V class Li metal battery. Advanced Functional Materials, 34(23), 2310516.

Yang, W., Xu, T., Fan, H., Yang, C., Sun, W., Ma, X., Wang, X., & Fu, Y. (2024). Selective and bifunctional catalytic electrochemical conversion of organosulfide molecule by high-entropy carbides. Advanced Functional Materials, 34(24), 2409450.

Wang, X., Li, W., Lv, X., & Broekmann, P. (2024). When chiral chemistry meets electrochemistry: A virgin land of an academic gold mine. Matter, 7(10), 2626–2788.

Cao, M., Li, W., Li, T., Zhu, F., & Wang, X. (2024). Polymetallic amorphous materials: Research progress in synthetic strategies and electrocatalytic applications. Journal of Materials Chemistry A, 12(30), 15541–15557.

Cui, T., Xu, J., Wang, X., Liu, L., Xiang, Y., Zhu, H., Li, X., & Fu, Y. (2024). Highly reversible transition metal migration in superstructure-free Li-rich oxide boosting voltage stability and redox symmetry. Nature Communications, 15, 4742.

Duan, H., Li, W., Ran, L., Zhu, F., Li, T., Miao, M., Yin, W., Wang, X., & Fu, Y. (2024). In-situ electrochemical interface of Cu@Ag/C towards the ethylene electrosynthesis with adequate *CO supply. Journal of Energy Chemistry, 99, 292–299.

Ma, X., Zhang, Y., Yang, W., Liu, C., Wang, X., & Fu, Y. (2025). Defect-engineered NbSx as an efficient cathode host for high-performance Li–organosulfur batteries. ChemSusChem. Advance online publication. e202500983.

Cao, M., Miao, H., Li, J., Liu, C., Wang, X., & Fu, Y. (2025). Tailoring the ionomer type to optimize catalyst microenvironment for enhanced CO2 reduction in membrane electrode assembly. Carbon Energy. Advance online publication.

Uzma Parveen Shaikh | Chemistry | Women Research Award

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Dr. Uzma Parveen Shaikh | Chemistry | Women Research Award

Dr. Rafiq Zakaria College for Women | India

Author Profile

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Early Academic Pursuits

Dr. Uzma Parveen Shaikh built her academic foundation in chemistry, earning both a master’s degree and a doctorate in the discipline. Her early education was marked by a strong inclination toward analytical and inorganic chemistry, with a particular focus on solvent extraction, spectrophotometric methods, and separation techniques for precious and transition metals. This academic grounding, coupled with a passion for research, positioned her to explore complex chemical phenomena and develop innovative solutions in analytical chemistry.

Professional Endeavors

Dr. Shaikh serves as an Assistant Professor of Chemistry at Dr. Rafiq Zakaria College for Women, Aurangabad, where she has been dedicated to teaching and guiding students for over a decade. Her teaching career is seamlessly integrated with her research pursuits, enabling her to create a dynamic learning environment that blends theoretical knowledge with experimental practice. She has also presented her research at several national and international conferences, contributing to scholarly discussions and scientific advancements in her field.

Contributions and Research Focus

Her research is centered on the synthesis of novel extractants and their application in the separation and determination of precious and rare metals such as palladium, rhodium, platinum, and gold. She has extensively studied Schiff base ligands, sulphur-containing extractants, and their spectrophotometric applications. Beyond metal extraction, her work extends to environmental chemistry, including physico-chemical studies of water quality and the isolation of catalytic materials from industrial waste. Her publications also cover bio-evaluation, thermodynamic studies, and the role of information technology in education, reflecting a multi-disciplinary approach.

Accolades and Recognition

Dr. Shaikh has earned recognition through numerous publications in reputed national and international journals. Her research has been presented at prestigious conferences, often earning appreciation for its originality and applicability. She has been invited to share her expertise on various academic platforms, reinforcing her status as a respected figure in the chemistry research community.

Impact and Influence

Her scientific contributions have significantly advanced methods of metal extraction, offering more efficient and selective processes for industrial and analytical applications. Her studies on environmental monitoring have also influenced best practices in water quality analysis and sustainable chemical usage. In academia, she has inspired students to pursue research-oriented careers, thus extending her impact beyond her direct scholarly work.

Legacy and Future Contributions

Dr. Shaikh’s legacy lies in her meticulous research methodology, her ability to bridge theoretical chemistry with practical applications, and her dedication to mentoring the next generation of chemists. Moving forward, she aims to expand her research in green chemistry, develop more sustainable extraction processes, and contribute to the broader field of material science, catalysis, and environmental protection.

Publications

Article: Solvent extraction of Nickel (II) from hydrochloric acid media using DMABIMTT
Authors: Uzma P. Shaikh, Vinod Shelke, Sarika Jadhav
Journal: Journal of Engineering and Technology Management
Year: 2024

Conference Paper: Solvent extraction of Zn(II) from hydrochloric acid media using DMABIMTT
Authors: Uzma P. Shaikh (presenter)
Conference: National Conference on IISTCS 23, Department of Chemistry, Deogiri College, Aurangabad, MS, India
Year: 2023

Article: Complexation, Bio-evaluation, Magnetic Susceptibility and Thermodynamic study of Newly Synthesized Pharmacologically active Schiff base with La(III), Ce(III) and Sm(III)
Authors: Zamzam Taher Omar, Shivaji Jadhav, Rashmi Pathrikar, Shaikh Uzma, Megha Rai
Journal: Asian Journal of Research in Chemistry
Year: 2022

Article: Ternary complex formation equilibria of tetradentate Schiff base ligand with Zn(II) and dipeptides
Authors: Sarika M. Jadhav, Vinod A. Shelke, Uzma P. Shaikh
Journal: International Journal of All Research Education and Scientific Methods
Year: 2021

Conference Paper: Determination of tannins in tea and coffee samples
Authors: Uzma P. Shaikh (presenter)
Conference: National Convention of Chemistry Teachers (NCCT 2020)
Year: 2020

Conclusion

Through her dedication to research, teaching, and knowledge dissemination, Dr. Shaikh has strengthened the link between advanced chemical research and its practical applications. Her focus on precious metal extraction, environmental chemistry, and novel analytical techniques ensures her continued relevance in addressing both industrial and environmental challenges. She stands as a role model for aspiring researchers and remains committed to advancing the frontiers of chemistry.

 

Sandhya Rani Nayak | Chemistry | Best Researcher Award

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Ms. Sandhya Rani Nayak | Chemistry | Best Researcher Award

Andhra University | India

Author Profile

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📚 Early Academic Pursuits

Ms. Sandhya Rani Nayak's academic excellence began with consistent performance in her school years and gained momentum through her B.Sc. in MPC (Mathematics, Physics, Chemistry) at Dr. B.R. Ambedkar University. She earned her M.Sc. in Analytical Chemistry from Andhra University with an impressive CGPA of 8.0, and later a B.Ed., reaffirming her passion for both science and education. Her progression into a PhD program demonstrates a continued commitment to high-level research in chemistry.

👩‍🔬 Professional Endeavors

Ms. Nayak has accumulated substantial teaching and lab experience. She served as a Lecturer in Analytical Chemistry at Dr. V.S. Krishna Government Degree & PG College and currently instructs in inorganic labs at Andhra University. These roles have allowed her to mentor students while sharpening her own experimental and pedagogical skills.

🔬 Research Focus and Contributions

Ms. Nayak's research primarily revolves around OLEDs, deep-blue emitters, donor–acceptor fluorophores, and molecular sensing. Her publication portfolio includes notable articles in high-impact journals such as Advanced Optical Materials, The Journal of Physical Chemistry C, Journal of Materials Chemistry C, and New Journal of Chemistry. Her work on benzimidazole-TPA conjugates and triphenylamine-imidazole-based fluorophores stands out for its innovation in developing stable and efficient optoelectronic materials.

🏆 Accolades and Recognition

Her academic rigor is evident from her qualifications in several competitive exams like APRCET (2021), OSSTET (2021), OTET (2022), APTET (2022), and APSET (2024). Additionally, she has actively participated in multiple national and international seminars, webinars, and symposia, further showcasing her engagement with the global scientific community.

🌍 Impact and Influence

Through her interdisciplinary research, Ms. Nayak has impacted the fields of organic electronics and environmental chemistry. Her investigations into fluorophores for OLEDs not only push the frontiers of energy-efficient display technology but also offer viable paths for pollution detection and chemical sensing.

🔮 Legacy and Future Contributions

With her PhD in progress and a strong foundation in both research and teaching, Ms. Nayak is poised to emerge as a leading scientist in the field of materials chemistry. Her future contributions are likely to expand toward sustainable optoelectronics and next-generation smart materials.

Publication

📄 HLCT Driven Twisted Benzo[d]thiazole Based D–A–D Fluorophores for High‐Performance, Two‐Component White LEDs
 Authors: Swetha Maredi, Diksha Thakur, Dhruba Jyoti Boruah, Sandhya Rani Nayak, Panneerselvam Yuvaraj, Sivakumar Vaidyanathan
 Journal: Chemistry – An Asian Journal
Year:  2025

📄 Broad-band Emissive Phenanthroimidazole-Based Donor–Acceptor Luminogens for Hybrid White Light Emitting Diodes and Sensors for Picric Acid Detection
 Authors: Swetha Maredi, Sandhya Rani Nayak, Md Intekhab Alam, Diksha Thakur, Sivakumar Vaidyanathan
 Journal: Journal of Materials Chemistry C
Year:  2025

📄White Light Emissive Eu(III) Complexes through Ligand Engineering and their Applications in Cool Near Ultraviolet White Light Emitting Diodes and Thermometer
 Authors: Swetha Maredi, Sibani Mund, Sandhya Rani Nayak, Samatha Devineni, C Subrahmanyam, Sivakumar Vaidyanathan
 Journal: ChemPhysChem
Year:  2024

📄Efficiency Boost in Non-Doped Blue Organic Light-Emitting Diodes: Harnessing Aggregation-Induced Emission – A Comprehensive Review
 Authors: Snigdhamayee Rana, Sandhya Rani Nayak, Sabita Patel, Sivakumar Vaidyanathan
 Journal: Journal of Materials Chemistry C
Year:  2024

📄 Structural Engineering of Deep-Blue Emitters (Imidazoles Integrated with Triphenylamine) Leads to EQE > 6% and High Color Purity (CIEy ∼ 0.09) for Solution-Processed OLEDs
 Authors: Sivakumar Girase, Jaipal Devesing Singh, Sunidhi Debata, Bhabana Priyadarshini Nayak, Sandhya Rani Nagar, Mangey Ram Jou, Jwo-Huei Patel, Sabita Vaidyanathan
 Journal: The Journal of Physical Chemistry C
Year:  2023

Welela Meka | Chemistry | Editorial Board Member

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Mr. Welela Meka | Chemistry | Editorial Board Member

Mattu University | Ethiopia

Author Profile

Sopus

Early Academic Pursuits

Welela Meka embarked on her academic journey at Mettu University, Ethiopia, where she earned her BSc degree in Chemistry in 2017 with an outstanding CGPA of 3.91. Her commitment to academic excellence laid the foundation for her future endeavors.

Professional Endeavors

Since 2020, Welela Meka has been serving as a Lecturer in the Department of Chemistry at Mettu University, contributing to the education and development of undergraduate students. Prior to this role, from 2017 to 2018, she gained experience as a Graduate Assistant-I in the same department, showcasing her dedication to academic growth.

Contributions and Research Focus

Welela Meka actively engages in research, with a focus on Organic Chemistry, Polymer Chemistry, Natural Product Chemistry, Material Chemistry/Sciences, Biochemistry, Medicinal Chemistry, Chemical Engineering, and Applied Chemistry. Her diverse research projects encompass topics such as biodiesel production, antioxidant activity of plant extracts, synthesis of novel derivatives, and the application of biopolymers in pharmaceutical and drug delivery.

Accolades and Recognition

Welela Meka's academic journey has been marked by excellence, evident in her CGPA achievements during both her BSc and MSc studies. Her noteworthy contributions to research, along with her commitment to teaching, have earned her recognition within the academic community.

Impact and Influence

As a lecturer and researcher, Welela Meka has a direct impact on the education of future scientists. Her work in various committees, including staff development and curriculum review, reflects her commitment to enhancing educational standards.

Legacy and Future Contributions

Welela Meka's legacy is shaped by her dedication to advancing knowledge in the field of chemistry. Her research outputs, committee involvement, and teaching contributions contribute to the university's academic environment. In the future, she aims to further explore innovative solutions in the realm of chemistry, leaving a lasting impact on the scientific community.

Notable Publications

Optimization and characterization of biodiesel from waste cooking oil using modified CaO catalyst derived from snail shell 2023 (5)

Pharmaceutical and drug delivery applications of pectin and its modified nanocomposites 2022 (23)

Pharmaceutical and drug delivery applications of chitosan biopolymer and its modified nanocomposite: A review 2022 (22)