Nowsheenah Farooq | Materials Chemistry | Best Researcher Award

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Dr. Nowsheenah Farooq | Materials Chemistry | Best Researcher Award

Researcher at Jamia Millia Islamia | India

Dr. Nowsheenah Farooq is an accomplished chemist, researcher, and dynamic LLM Trainer and Subject Matter Expert at Turing, whose expertise spans both the scientific and technological domains. She combines her advanced understanding of chemistry with data-driven model evaluation to fine-tune large language models for real-world performance. Before joining Turing, she served as a Chemistry Lecturer at Wular Valley College of Education, where she played a pivotal role in academic instruction, laboratory supervision, and student mentorship. Her technical expertise encompasses a broad range of analytical instrumentation including FTIR, UV-Vis, PXRD, SEM, TEM, XPS, TGA, and Raman, supported by strong proficiency in software such as Origin, ChemDraw, and SciFinder. Her research contributions are reflected through multiple impactful publications in leading international journals, including J. Mater. Chem. A, J. Mol. Liq., Chem. Eng. J., ACS Appl. Polym. Mater., ACS Appl. Eng. Mater., Tetrahedron, and ChemistrySelect, as well as insightful book chapters in Photoinduced Synthesis of Nanoparticles and Medicinal Plant Mediated Nanoparticles published by Wiley. Her scholarly works focus on the synthesis, characterization, and application of nanomaterials, green chemistry innovations, and sustainable material design. She has also contributed to the field through a notable book chapter on Green Synthesis of Nanomaterials, highlighting her commitment to environmentally conscious scientific development. With a Ph.D. in Chemistry from Jamia Millia Islamia and prior degrees from Aligarh Muslim University and Bhagwant University, she has continuously demonstrated academic excellence. Her active participation in national and international conferences, poster presentations, and seminars reflects her dedication to collaborative learning and scientific outreach. Recognized with an ACS cover page mention, Dr. Farooq exemplifies the modern researcher—bridging chemistry, education, and artificial intelligence with innovation, integrity, and purpose.

Profile: Scopus | Google Scholar

Featured Publications:

Farooq, N., Taha, A., & Hashmi, A. A. (n.d.). Facile synthesis of a nitrogen-rich covalent organic framework for the efficient capture of iodine. Journal of Materials Chemistry A, 12(17), 10539–10553.

Taha, A., Farooq, N., Singh, N., & Hashmi, A. A. (n.d.). Recent developments in Schiff base centered optical and chemical sensors for metal ion recognition. Journal of Molecular Liquids, 401, 124678.

Farooq, N., Malik, M. A., & Hashmi, A. A. (n.d.). Hydrothermal synthesis of melamine-based porous organic polymer for the advanced adsorption of iodine. Chemical Engineering Journal, 498, 154894.

Farooq, N., Malik, M. A., & Hashmi, A. A. (n.d.). Effective iodine adsorption and storage of volatile iodine by nitrogen-rich porous organic polymers from flexible building blocks. ACS Applied Polymer Materials.

Taha, A., Singh, N., Farooq, N., & Hashmi, A. A. (n.d.). Facile synthesis of Schiff base palladium (II) complex for efficient catalytic reduction of aromatic nitro compounds and organic dyes for wastewater remediation. Journal of Molecular Liquids, 426, 127343.

Devagi Kanakaraju | Materials Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Devagi Kanakaraju | Materials Chemistry | Best Researcher Award

Lecturer at Universiti Malaysia Sarawak, Malaysia

Assoc. Prof. Dr. Devagi Kanakaraju is a Malaysian chemist and educator dedicated to the advancement of sustainable environmental practices through science and education. With a Ph.D. in Environmental Chemistry from James Cook University, Australia, she has established herself as a prominent researcher and academic leader at UNIMAS. Her contributions to both research and pedagogy have earned her numerous accolades, including the Distinguished Alumni Award from the Malaysian Australian Alumni Council and multiple innovation medals at national and university expos. She continues to drive impact through research excellence, innovative teaching, and academic leadership.

Profile

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Orcid

scholar

🎓 Education

  • Ph.D. in Environmental Chemistry, James Cook University, Australia – 2014

  • Postgraduate Diploma in Teaching and Learning, Universiti Malaysia Sarawak (UNIMAS) – 2005

  • M.Sc. in Analytical Chemistry, Universiti Teknologi Malaysia – 2003

  • B.Sc. Ed (Hons) in Chemistry, Universiti Teknologi Malaysia – 2000

👨‍🔬 Experience

Assoc. Prof. Dr. Devagi Kanakaraju is an academic with over two decades of experience in higher education, currently serving as Deputy Director at the Centre for Academic Development and Management at Universiti Malaysia Sarawak (UNIMAS). Since joining UNIMAS in 2003, she has held various leadership and academic positions, including Program Coordinator at the Faculty of Resource Science and Technology (2015–2017, 2019–2023). She has contributed significantly to curriculum innovation, teaching excellence, and academic management. She began her professional career as a Publishing Editor at Penerbitan Pelangi Sdn Bhd (2002–2003). Dr. Kanakaraju is also an active member of the Malaysian Institute of Chemistry, the American Chemical Society, and the Malaysian Young Chemists Network.

🔍 Research Interest

Dr. Kanakaraju’s research spans across Environmental Chemistry, Materials Chemistry, and Analytical Chemistry. Her work focuses on water and wastewater treatment, photocatalysis, green chemistry, and the development of novel composite materials for environmental remediation. She is particularly known for innovations like the “Capture and Break (Cab)” and “DARe-CP” photocatalyst systems for dye and waste degradation. Her multidisciplinary research integrates chemistry, environmental science, and sustainability.

📚 Publications 

  • Kanakaraju, D., Anak Kutiang, F.D., Lim, Y.C., Goh, P.S.
    “Recent progress of Ag/TiO₂ photocatalyst for wastewater treatment: Doping, co-doping, and green materials functionalization”
    Applied Materials Today, Volume 27, 101500 (2022)
    📈 Citations: 121
    🔬 This paper reviews cutting-edge advancements in Ag/TiO₂ photocatalysts, highlighting the role of metal/non-metal doping, co-doping, and eco-friendly functionalization techniques to enhance photocatalytic efficiency for wastewater treatment.

  • Kanakaraju, D., Ravichandar, S., Lim, Y.C.
    “Combined effects of adsorption and photocatalysis by hybrid TiO₂/ZnO-calcium alginate beads for the removal of copper”
    Journal of Environmental Sciences, Volume 55, pp. 214–223 (2017)
    📈 Citations: 116
    🧪 This study explores a dual-function hybrid bead system incorporating TiO₂/ZnO and calcium alginate, capable of simultaneously adsorbing and degrading copper ions from aqueous systems, paving the way for multifunctional treatment technologies.

  • Kanakaraju, D., Chandrasekaran, A.
    “Recent advances in TiO₂/ZnS-based binary and ternary photocatalysts for the degradation of organic pollutants”
    Science of the Total Environment, Volume 868, 161525 (2023)
    📈 Citations: 105
    🧫 A comprehensive review of TiO₂/ZnS photocatalyst systems, this article details their mechanisms, synthesis techniques, and potential in degrading persistent organic pollutants through advanced photocatalytic reactions.

  • Al-Sharqi, A., Apun, K., Vincent, M., Kanakaraju, D., Bilung, L.M.
    “Enhancement of the antibacterial efficiency of silver nanoparticles against gram‐positive and gram‐negative bacteria using blue laser light”
    International Journal of Photoenergy, 2019(1), Article ID 2528490
    📈 Citations: 81
    💡 This paper demonstrates the synergistic use of silver nanoparticles and blue laser light in improving antibacterial efficacy, showing promise for non-antibiotic antimicrobial strategies.

  • Wahi, R., Zuhaidi, N.F.Q., Yusof, Y., Jamel, J., Kanakaraju, D., Ngaini, Z.
    “Chemically treated microwave-derived biochar: An overview”
    Biomass and Bioenergy, Volume 107, pp. 411–421 (2017)
    📈 Citations: 81
    🌱 This overview assesses the potential of chemically modified, microwave-derived biochar for environmental applications, particularly in adsorption and soil enhancement.

Conclusion

Assoc. Prof. Dr. Devagi Kanakaraju stands out as a leading researcher in materials and environmental chemistry, with an outstanding record in sustainable innovation, high-impact publications, academic leadership, and applied research. Her contributions to novel photocatalyst systems and hybrid materials have direct implications for environmental sustainability and green technology.

She is a highly deserving candidate for the Best Researcher Award in Materials Chemistry, with both the academic pedigree and real-world impact to represent excellence in this field.

Xiaofei Yang | Intelligent Materials | Best Researcher Award

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Prof. Xiaofei Yang | Intelligent Materials | Best Researcher Award

Professor, Dalian Institute of Chemical Physics, China

Dr. Xiaofei Yang 🎓 is a renowned Professor at the Division of Energy Storage, Dalian Institute of Chemical Physics (CAS), China. With expertise in advanced materials for all-solid-state lithium batteries (ASSLBs), Dr. Yang has significantly contributed to the field through groundbreaking research, numerous publications, and impactful patents. His innovative approaches in energy storage technologies have earned him global recognition, including being listed among the World’s Top 2% Scientists 🌟 for consecutive years (2022–2024).

Publication Profile

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Education

📘 Dr. Yang earned his Ph.D. (2013–2018) from the Division of Energy Storage at the Dalian Institute of Chemical Physics (CAS) in China, specializing in advanced lithium battery technologies. He holds a Bachelor’s degree (2009–2013) in Chemical Engineering and Technology from Anhui University, China, laying a strong foundation for his remarkable academic journey.

Experience

📈 Dr. Yang currently serves as a Professor (2022–present) and has previously held roles as an Associate Professor (2021–2022) at the Dalian Institute of Chemical Physics, CAS. He honed his research expertise as a postdoctoral fellow (2018–2021) at Western University, Canada, where he worked on cutting-edge materials in the field of mechanical and materials engineering.

Awards and Honors

🏆 Dr. Yang has received numerous accolades, including being recognized in the Special Talent Program B of CAS (2022), Outstanding Young Scientists of Liaoning (2023), and Top Talents of Dalian (2022). He was also honored as the Zhang Dayu Young Scholar (2022) and awarded the Mitacs Elevate Fellowship in Canada (2020). He actively contributes as an editorial board member and committee member in prestigious journals and organizations globally.

Research Focus

🔬 Dr. Yang’s research centers on advanced materials for all-solid-state lithium batteries (ASSLBs), addressing critical challenges such as electrode materials and solid-state electrolytes. His innovative work combines nanotechnology, advanced characterization techniques, and emerging engineering solutions to optimize battery performance. His studies have set benchmarks in material synthesis and the practical application of ASSLBs.

Conclusion

With a prolific academic career, numerous accolades, and an unyielding passion for energy storage technologies ⚡, Dr. Xiaofei Yang continues to lead impactful research. His contributions are pivotal in revolutionizing the future of renewable energy and sustainable technologies.

Publications

Towards High-Performance Solid-State Li-S Batteries: From Fundamental Understanding to Engineering Design, Chem. Soc. Rev., 2020, 49, 2140-2195. DOI link (Cited by: 890)

Determining the Limiting Factor of the Electrochemical Stability Window for PEO-based Solid Polymer Electrolyte, Energy Environ. Sci., 2020, 13, 1318-1325. DOI link (Cited by: 760)

Recent Advances and Perspectives on Thin Electrolytes for High-Energy Density Solid-State Lithium Batteries, Energy Environ. Sci., 2021, 14, 643-671. DOI link (Cited by: 680)

Safety Concerns in Solid-State Lithium Batteries: From Materials to Devices, Energy Environ. Sci., 2024, 17, 7543-7565. DOI link

Promoting the Transformation of Li2S2 to Li2S: Increasing Utilization of Active Materials for High Sulfur Loading Li-S Batteries, Adv. Mater., 2019, 31, 1901220. DOI link (Cited by: 630)