Tag: Materials Science Award

Yanli Wang | Materials Science | Best Researcher Award

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Prof. Yanli Wang | Materials Science | Best Researcher Award

Hainan Medical University, China

Prof. Wang Yanli is a distinguished researcher and academic leader specializing in precision-targeted cancer research, nanochemistry, molecular imaging, and translational medicine. After completing his doctoral studies at the Institute of Nanochemistry and Biology, Shanghai University, in 2010, he has held a series of progressive academic and administrative positions, including director of the Center for Precision Targeted Cancer Research, dean of the Hu Jinhua Institute of Precision Health Education, and, most recently, professor at Hainan University and dean of the School of Pharmacy at Hainan Medical University. Prof. Wang has conducted visiting research at globally renowned institutions, including Clemson University and Harvard University, enhancing his international collaborations and fostering cross-border knowledge exchange. His research portfolio is extensive and impactful, encompassing over 56 SCI-indexed publications with 2,764 citations and an h-index of 25, reflecting both the quality and influence of his work. He has secured multiple competitive national-level grants, including funding from the National Natural Science Foundation of China for Excellent Young Scholars and the National Outstanding Young Scholars Fund, leading six major projects in cancer diagnostics, molecular imaging, and nanotechnology applications. Prof. Wang has also applied for 15 patents and contributed to the authorship and editing of monographs, underscoring his commitment to innovation and knowledge dissemination. Prof. Wang’s leadership extends beyond research. He serves in numerous professional and advisory capacities, including as an expert member of the Big Health Committee of the United Nations World Silk Road Forum and as director or member of multiple national and regional medical imaging and oncology committees. His work has tangible societal impact, advancing precision oncology, improving molecular imaging technologies, and contributing to public health strategies. Recognized with awards such as the Yangtze River Delta Most Potential Technology Trading Award and the International Association for Advanced Materials Young Scientist Award, Prof. Wang continues to bridge fundamental research, translational applications, and industry innovation, making significant contributions to science, healthcare, and global biomedical advancements.

Profiles: Scopus | ORCID

Featured Publications

  1. Li, Y., Zhang, Y., Li, C., Chen, G., Muhammad, P., Yao, Y., Gao, L., Liu, Z., & Wang, Y. (2025, October). Advanced cancer immunotherapy via SMARCAL1 blockade using a glucose‐responsive CRISPR nanovaccine. Advanced Science.

  2. Tang, T., Chen, J., Zhang, J., Pan, P., Jiang, J., Hu, C., He, Y., Li, C., Zhang, J., & Wang, Y. (2025, August). High concentrations of fluorescent nanoprobes delayed Oryzias melastigma embryo hatching by modulating respiratory and metabolic pathways. VIEW.

  3. Muhammad, P., Zada, A., Rashid, J., Hanif, S., Gao, Y., Li, C., Li, Y., Fan, K., & Wang, Y. (2024, July). Defect engineering in nanocatalysts: From design and synthesis to applications. Advanced Functional Materials.

  4. He, W., Zhang, J., Ju, J., Wu, Y., Zhang, Y., Zhan, L., Li, C., & Wang, Y. (2023, November). Preparation, characterization, and evaluation of the antitumor effect of kaempferol nanosuspensions. Drug Delivery and Translational Research.

  5. Qiu, L., Alqahtani, B. A., Li, C., He, W., Yin, X., Zhan, L., Zhang, J., & Wang, Y. (2023, August 2). Changes in diet, exercise and psychology of the quarantined population during the COVID-19 outbreak in Shanghai. PLOS ONE.

Prof. Wang Yanli’s work advances precision-targeted cancer research and molecular imaging, driving innovation in diagnostics and therapeutics. His research bridges fundamental science and translational applications, enhancing healthcare outcomes, promoting biomedical technology development, and supporting global health initiatives.

Xue Yu | Materials Science | Best Researcher Award

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Ms. Xue Yu | Materials Science | Best Researcher Award

Chengdu University, China

Professor Xue Yu, PhD, is a leading scholar in materials science and mechanical engineering, specializing in advanced functional materials, luminescent nanocrystals, and optoelectronic applications. She earned her PhD from Lanzhou University in 2010 and an MS from Henan University in 2007. Currently, she serves as Professor at the School of Mechanical Engineering, Institute for Advanced Materials, Chengdu University, and Deputy Director of its Graduate Office. She has previously held key academic positions at Kunming University of Science and Technology and completed a visiting scholar tenure at New Mexico State University, USA. Professor Yu’s research focuses on in vivo mechanical signal sensing, nanocrystal upconversion, long-persistent luminescence, perovskite scintillators, and the development of high-performance optoelectronic and imaging materials. Her work has yielded over 60 peer-reviewed publications in prestigious international journals such as Advanced Materials, ACS Nano, Advanced Optical Materials, and Chemical Engineering Journal, accumulating more than 3,000 citations with an h-index of 34. She has led multiple national research grants exceeding 3 million CNY, including projects supported by the National Natural Science Foundation of China and talent development programs such as the Rongpiao Plan and Tianfu Emei Plan. Professor Yu has also been recognized with numerous scientific awards, including the First Prize in Natural Science of Yunnan Province (2019) and Third Prize of Natural Science (2020), alongside multiple student guidance and innovation awards at national competitions. Her inventive contributions include patents in perovskite nanowire arrays, near-infrared fluorescent materials, and multimodal luminescent systems. Beyond publications and patents, Professor Yu actively mentors emerging researchers, guiding projects in advanced luminescent materials, stress imaging, and optoelectronic device development. Her work not only advances fundamental understanding of defect-engineered nanomaterials and luminescence mechanisms but also drives societal impact through innovations in biomedical imaging, energy-efficient lighting, and high-performance sensors. With extensive collaborations both nationally and internationally, Professor Yu’s research integrates materials science, photonics, and applied engineering, establishing her as a prominent figure whose scientific contributions are advancing technology and addressing critical challenges in imaging, sensing, and sustainable material development.

Profiles: Scopus | ORCID

Featured Publications

  1. Fan, X., Zeng, T., Zeng, C., Zeng, G., Xiong, F., Gao, R., Zhang, Y., Hao, X., Hu, A., Yu, X., et al. (2025). Cuprous halides scintillator via anion‐substitution strategy for X‐ray dynamic imaging. Laser & Photonics Reviews.

  2. Wang, T., Sun, J., Teng, Z., Yao, S., Yuan, J., Han, L., Mu, D., Song, H., Yu, X., Xu, X. (2025). Near‐infrared emission perovskites for multifunctional bioimaging. Small Science.

  3. Bu, W., Wang, T., Wang, Y., Huang, W., Guo, L., Yue, Y., Zhu, X., Xiao, J., Yu, X. (2025). Near‐infrared mechanoluminescence of Gd3Ga5O12: Cr3+, La3+ for biological stress imaging. Laser & Photonics Reviews.

  4. Hu, A., Hou, L., Yue, Y., Yu, S. F., Yu, X., Wang, T. (2025). Ultraelastic lead halide perovskite films via direct laser patterning. ACS Nano.

  5. Zhu, N., Wang, T., Guo, L., Zhu, X., Bu, W., Yue, Y., Yu, X. (2024). Multimodal dynamic luminescence of self-activated Na2CaGe2O6 phosphor via defect manipulation. CrystEngComm.

Ms. Xue Yu’s pioneering work in luminescent nanomaterials and optoelectronic devices bridges fundamental science and practical innovation, driving advancements in biomedical imaging, stress sensing, and energy-efficient lighting technologies. Her research contributes significantly to sustainable material development and fosters global innovation in next-generation photonic and electronic systems.

Mohamed Sheik Sirajuddeen Mohamed Abdullah | Materials Science | Best Researcher Award

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Prof. Mohamed Sheik Sirajuddeen Mohamed Abdullah | Materials Science | Best Researcher Award

B.S.Abdur Rahman Crescent Institute of Science and Technology, India

Prof. Mohamed Sheik Sirajuddeen Mohamed Abdullah is an accomplished Associate Professor in the Department of Physics, specializing in Computational Materials Science, with a distinguished career spanning over 21 years in teaching and 10 years in research. He holds a Ph.D. in Condensed Matter Physics from Anna University, Chennai, an M.Phil. in Physics from Manonmaniam Sundaranar University, an M.Sc. in Physics from Bharathidasan University, and a B.Sc. in Physics from the University of Madras. Prof. Sirajuddeen has made significant contributions to computational materials science through advanced simulations, density functional theory (DFT), and nuclear materials analysis, focusing on the structural, electronic, optical, elastic, and thermodynamic properties of novel materials including perovskites, lead-free compounds, and spintronic systems for optoelectronic and energy applications. His professional experience includes designing advanced physics curricula, establishing computational labs, mentoring Ph.D. scholars, leading department accreditations, and conducting corporate technical training programs. His research interests encompass computational modeling of materials, nuclear security, sustainable energy technologies, and AI-driven materials engineering. Prof. Sirajuddeen’s technical skills include proficiency in Fortran, C, FP-LAPW, TB-mBJ methods, VASP codes, Materials Studio, and Linux/Ubuntu systems, with additional expertise in research article review and nuclear safety certifications from the IAEA. He has published 38 research documents, garnering 339 citations with an h-index of 11, reflecting his influence and impact in the field. Prof. Sirajuddeen’s awards and honors include the Excellent Teaching Award (2019), Best Paper Award at Anna University, and multiple editorial board memberships. He has actively participated in international workshops, including ICTP-IAEA programs, and contributed to developing global elective courses on nuclear advocacy and materials science. In conclusion, Prof. Mohamed Sheik Sirajuddeen combines outstanding teaching, research excellence, and international engagement, positioning him as a leading figure in computational materials science with strong potential to advance sustainable technologies, nuclear security, and innovative materials research globally.

Profiles: Scopus | ORCID | LinkedIn

Featured Publications

  1. Ajay, G., Ashwin, V., & Sheik Sirajuddeen, M. M. (2025, October). DFT-based investigation on novel lead-free inorganic cubic halide double perovskite Cs₂LiInX₆ (X = Br and I) for energy harvesting device applications. Computational Condensed Matter, 5, e01155.

  2. Hussain, M. M. S., Mohamed, S. B., & Sheik Sirajuddeen, M. M. (2025, October). Pressure induced DFT study on structural, electronic, optical, and thermodynamic properties of lead free InXF₃ (X = Sr and Ba) for optoelectronic applications. Computational Condensed Matter, 5, e01077.

  3. Ashwin, V., Sirajuddeen, M. M. S., & Ajay, G. (2024, September). Dynamical stability, electronic and optical properties of AcAlO₃ perovskite using mBJ and hybrid functionals: A DFT approach. Computational Condensed Matter, 4, e00930.

  4. Kaleemullah, N. S., Mohamed, S. B., Ramakrishnan, P., Ashwin, V., & Sheik Sirajuddeen, M. M. (2024, September). Study of optical responsivity and electronic properties of ternary halide perovskite semiconductors – CaKI₃ and CaRbI₃ for optoelectronic applications: A DFT approach. Computational Condensed Matter, 4, e00939.

  5. Hussain, M. M. S., Kaleemullah, N. S., Ajay, G., & Sheik Sirajuddeen, M. M. (2024, September 1). A DFT study on structural, electronic, and optical properties of cubic perovskite semiconductors InXF₃ (X = Be and Ca) for optoelectronic applications. Modelling and Simulation in Materials Science and Engineering, 32, ad5a2c.

Prof. Mohamed Sheik Sirajuddeen Mohamed Abdullah work advances science and industry by leveraging computational materials science and nuclear research to develop innovative materials and sustainable energy technologies, while promoting global nuclear safety and fostering international scientific collaboration. His research bridges fundamental physics with practical applications, driving technological innovation and societal impact worldwide.

Arshiya Ansari | Materials Science | Best Researcher Award

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Ms. Arshiya Ansari | Materials Science | Best Researcher Award

Indian Institute of Technology Jodhpur, India

Arshiya Ansari is an accomplished researcher in Materials Science and Engineering, with expertise in materials synthesis, optoelectronics, photodetectors, electrochemical sensors, gas sensors, batteries, and 2D materials such as graphene and borophene. She earned her Ph.D. from the Department of Metallurgical and Materials Engineering, Indian Institute of Technology Jodhpur (2025) with a CGPA of 9.08/10, and conducted research at National Yang Ming Chiao Tung University and the National Synchrotron Radiation Research Center, Taiwan. She also holds an M.Tech in Nanotechnology from Jamia Millia Islamia, New Delhi, and an M.Sc. in Physics from Aligarh Muslim University. Arshiya’s professional experience includes research in advanced nanomaterials, polymer-metal oxide composites, UV photodetectors, electrochemical and gas sensors, and energy storage devices, with proficiency in fabrication techniques such as sol-gel nanocomposites, CNT-FET optimization, thin-film deposition, spin coating, sputtering, lithography, and characterization tools including XRD, Raman, SEM, UV-Vis spectroscopy, photoluminescence, and electrochemical analysis. She has authored 27 publications with 459 citations, an h-index of 12, and an i10-index of 15, contributing to journals like ACS Applied Nano Materials, Langmuir, Advanced Engineering Materials, and Journal of Materials Science: Materials in Electronics, and has filed a US provisional patent on Borophene tubes. Arshiya has presented her work at international conferences in Italy and India, served as a peer reviewer for reputed journals, and actively participates in professional societies including the International Society of Muslim Women in Science and the American Physical Society. Her achievements are complemented by grants from the Anusandhan National Research Foundation and SERB International Travel Support. Recognized for her leadership, mentorship, and community engagement through volunteer initiatives, Arshiya demonstrates a strong commitment to advancing materials research. Her dedication, technical expertise, and international collaborations position her as a promising leader in optoelectronic devices, sensor technologies, and energy materials, making her an outstanding candidate for the Best Researcher Award.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Ahmed, S., Ansari, A., Haidyrah, A. S., Chaudhary, A. A., Imran, M., & Khan, A. (2022). Hierarchical molecularly imprinted inverse opal-based platforms for highly selective and sensitive determination of histamine. ACS Applied Polymer Materials, 4(4), 2783–2793.

Madhaiyan, G., Tung, T. W., Zan, H. W., Meng, H. F., Lu, C. J., Ansari, A., Chuang, W. T., … (2020). UV-enhanced room-temperature ultrasensitive NO gas sensor with vertical channel nano-porous organic diodes. Sensors and Actuators B: Chemical, 320, 128392.

Ahmed, S., Ansari, A., Siddiqui, M. A., Imran, M., Kumari, B., Khan, A., & Ranjan, P. (2023). Electrochemical and optical-based systems for SARS-CoV-2 and various pathogens assessment. Advances in Natural Sciences: Nanoscience and Nanotechnology, 14(3), 033001.

Ahmed, S., Ansari, A., Siddiqui, M. A., Khan, A., & Ranjan, P. (2023). A potential optical sensor based on nanostructured silicon. Journal of Materials Science: Materials in Electronics, 34(8), 755.

Ahmed, S., Khatun, S., Sallam, S., Ansari, A., Ansari, Z. A., Kumar, R. R., Hakami, J., … (2022). Photoresponse of porous silicon for potential optical sensing. Europhysics Letters, 139(3), 36001.

Ms. Arshiya Ansari’s work in advanced nanomaterials, optoelectronic devices, and electrochemical sensors drives innovation in energy storage, environmental monitoring, and healthcare diagnostics, bridging fundamental research with practical applications. Her pioneering research enhances global scientific knowledge, supports sustainable technologies, and fosters international collaborations that advance both industry and society.

Shahzad Ahmed | Materials Science | Best Researcher Award

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Mr. Shahzad Ahmed | Materials Science | Best Researcher Award

Indian Institute of Technology Jodhpur, India

Mr. Shahzad Ahmed is a distinguished researcher and Prime Minister’s Research Fellow (PMRF) pursuing his Ph.D. in the Department of Materials Engineering at the Indian Institute of Technology (IIT) Jodhpur, India, with a stellar CGPA of 9.54. He holds an M.Tech in Nanotechnology (Gold Medalist, CGPA 9.48) from Jamia Millia Islamia, an M.Sc. in Physics from the University of Delhi, and a B.Sc. (Hons) in Physics from Ramjas College, University of Delhi. His professional and international research experience includes serving as a Visiting Scholar at the State University of New York at Buffalo (USA) and as a Researcher at the National Yang Ming Chiao Tung University (Taiwan), where he worked on nanostructured materials and advanced sensor technologies. His research interests lie in nanomaterials and nanotechnology, particularly borophene, graphene, MoS₂, and other low-dimensional materials, focusing on electrochemical-based sensors, biosensors, and thin-film fabrication for health and food monitoring applications. Mr. Ahmed possesses strong technical and analytical expertise in electrochemical analysis (CV, EIS, DPV), nanoparticle synthesis, CVD/PVD coating, photolithography, and advanced material characterization using SEM, Raman, FTIR, and UV-Vis spectroscopy. He has published more than 36 peer-reviewed papers, accumulating 872 citations and an h-index of 17, along with a U.S. Patent on borophene tubes. His remarkable achievements include securing the prestigious PMRF Fellowship, qualifying GATE (AIR 1839), and completing specialized training in Nano- and Microfabrication at National Tsing Hua University, Taiwan. He is also an active reviewer for more than twenty international journals, reflecting his professional recognition in the global scientific community. In conclusion, Mr. Shahzad Ahmed’s academic excellence, innovative research, and multidisciplinary skills make him a promising young scientist poised to contribute significantly to the advancement of nanotechnology, materials science, and sensor innovation on an international scale.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Staff Page

Featured Publications

Khan, A., Islam, S. M., Ahmed, S., Kumar, R. R., Habib, M. R., Huang, K., Hu, M., Yu, X., … (2018). Direct CVD growth of graphene on technologically important dielectric and semiconducting substrates. Advanced Science, 5(11), 1800050.

Ahmed, S., Ansari, A., Haidyrah, A. S., Chaudhary, A. A., Imran, M., & Khan, A. (2022). Hierarchical molecularly imprinted inverse opal-based platforms for highly selective and sensitive determination of histamine. ACS Applied Polymer Materials, 4(4), 2783–2793.

Imran, M., Ahmed, S., Abdullah, A. Z., Hakami, J., Chaudhary, A. A., Rudayni, H. A., … (2023). Nanostructured material‐based optical and electrochemical detection of amoxicillin antibiotic. Luminescence, 38(7), 1064–1086.

Khan, A., Ahmed, S., Sun, B. Y., Chen, Y. C., Chuang, W. T., Chan, Y. H., Gupta, D., … (2022). Self-healable and anti-freezing ion conducting hydrogel-based artificial bioelectronic tongue sensing toward astringent and bitter tastes. Biosensors and Bioelectronics, 198, 113811.

Khan, A., Cong, J., Kumar, R. R., Ahmed, S., Yang, D., & Yu, X. (2022). Chemical vapor deposition of graphene on self-limited SiC interfacial layers formed on silicon substrates for heterojunction devices. ACS Applied Nano Materials, 5(12), 17544–17555.

Mr. Shahzad Ahmed’s pioneering research on advanced nanomaterials and electrochemical sensors is driving innovation in sustainable healthcare, food safety, and environmental monitoring. His work bridges the gap between scientific discovery and real-world application, fostering global progress in nanotechnology and smart sensing solutions for a healthier, safer, and more sustainable future.

Yaping Wu | Materials Science | Best Researcher Award

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Prof. Dr. Yaping Wu | Materials Science | Best Researcher Award

Xiamen University, China

Professor Dr. Yaping Wu is a distinguished physicist at the Department of Physics, Xiamen University, China, with expertise in wide-bandgap semiconductor optoelectronic devices, quantum structures, graphene and two-dimensional materials, as well as surface interface physics and spintronics. He earned his B.Sc. in Physics from Xiamen University in 2006 and his Ph.D. in Microelectronics and Solid-State Electronics in 2012, including joint doctoral training at the University of Texas at Austin, USA. Since 2012, he has progressed from assistant professor to associate professor and currently serves as full professor at Xiamen University, demonstrating strong academic leadership and mentorship. His research interests encompass the growth and application of novel quantum structures, spin injection and regulation in nitride semiconductors, heterostructures of 2D materials, and chiral photonic quantum devices. Professor Wu possesses advanced research skills in device fabrication, spintronic and optoelectronic characterization, and integration of 2D material heterostructures. He has led multiple national and provincial projects, including NSFC Excellent Young Scientists Fund and several General Program grants, reflecting his leadership in pioneering semiconductor and quantum device research. His scholarly contributions include over 127 publications in high-impact journals such as Nature Electronics, Advanced Materials, Nano Letters, and ACS Nano, with 3,994 citations and an h-index of 23. He also holds numerous patents on spintronic devices, optical rotation systems, and electrically controllable quantum devices. Professor Wu’s awards and honors include Outstanding Research Achievement from NSFC, Top 10 Research Advances in China’s Semiconductor Science and Technology, multiple national teaching and supervision awards, and recognition as a high-level talent in Fujian Province and Xiamen City. With a proven record of high-impact research, innovation, mentorship, and international collaboration, Professor Wu is positioned to continue advancing cutting-edge developments in semiconductor physics, optoelectronics, and 2D quantum materials, fostering both scientific breakthroughs and the next generation of researchers globally.

Profile: Scopus

Featured Publications

Wu, X., Li, X., Kang, W., Zhang, X., Chen, L., Zhong, Z., Zhou, Y., Åkerman, J., Wu, Y., Zhang, R., & Kang, J. (2023). Topology-induced chiral photon emission from a large-scale meron lattice. Nature Electronics, 6(7), 516–524.

Wu, S., Wu, Q., Zhang, Y., Liu, M., Zhang, C., Wei, Y., Gao, Y., Xu, F., Zhang, C., Cao, Y., Zheng, X., Wu, Y., Wu, Z., Li, X., & Kang, J. (2025). Giant and anisotropic spin relaxation time in van der Waals GeSe with gate-tunability. Advanced Materials, 37(34), e2501618.

Cheng, A., Li, Z., Huang, F., Zhang, Y., Zhang, C., Xu, F., Zheng, X., Li, X., Wu, Z., Wu, Y., & Kang, J. (2025). Plasma-mediated polarity modulation in 2D ReS2 memristors for bio-inspired cascaded memristive architecture with stability-plasticity synergy. Materials Today. Advance online publication.

Liu, H., Zhang, Z., Zhang, C., Li, X., Zhang, C., Xu, F., Wu, Y., Wu, Z., & Kang, J. (2024). Simultaneously regulated highly polarized and long-lived valley excitons in WSe2/GaN heterostructures. Nano Letters, 24(6), 1851–1858.

Wu, X., Gong, B., Kang, W., Chen, L., Li, X., Wu, Y., & Kang, J. (2025). Orbital coupling and spin textures of Fe/Pd thin films grown on Si substrate with high magnetic fields. Advanced Science, 12(23), e2417810.

Prof. Dr. Yaping Wu’s pioneering research in wide-bandgap semiconductors, quantum structures, and 2D materials drives advances in next-generation optoelectronic and spintronic devices, enabling high-performance communication, energy-efficient electronics, and transformative technologies that impact science, industry, and global innovation.

Afsar Ahmed | Materials Science | Best Researcher Award

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Dr. Afsar Ahmed | Materials Science | Best Researcher Award

Saha Institute of Nuclear Physics, India

Dr. Afsar Ahmed is a promising researcher in condensed matter physics, currently pursuing his Ph.D. at the Condensed Matter Physics Division, Saha Institute of Nuclear Physics, Kolkata (2019–2025) under the guidance of Prof. Indranil Das. He completed his M.Sc. (2017) and B.Sc. (2015) in Physics from Aligarh Muslim University, India, both with first-class distinction. His professional experience encompasses extensive research in magnetic materials, magnetocaloric effects, magnetotransport phenomena, anomalous and topological Hall effects, spintronics, and skyrmions, with a Ph.D. thesis focused on non-collinear spin-induced magnetic and transport properties in intermetallic compounds, exploring the coexistence of real-space and momentum-space topologies in systems like inverse Heusler alloys, β-Mn, and layered magnets. Dr. Ahmed has authored 12 publications in reputed journals including Advanced Functional Materials, Physical Review B, and Journal of Physics: Condensed Matter, with 32 citations and an h-index of 3, and presented his work at leading national conferences such as DAESSPS, QMAT, SMS, and ICBEC. His research skills include polycrystalline and single-crystal sample preparation, thin-film deposition (PLD, sputtering), device fabrication, X-ray diffraction (Rigaku TTRAX-III), TEM-EDX, SQUID-VSM, PPMS, and customized cryogenic setups (9 T, 2 K), supported by proficiency in Origin, FullProf, Vesta, Python, LabVIEW, LaTeX, and Fortran-77. Dr. Ahmed has been recognized through merit scholarships, and has qualified competitive exams including GATE, NET, JEST, and WBSET. His awards and honors highlight his academic excellence and commitment to research. With a strong academic foundation, robust publication record, diverse research skills, and active engagement in the scientific community, Dr. Afsar Ahmed is well-positioned to advance impactful research in quantum and topological materials, contribute to international collaborations, and mentor future generations of scientists.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Ahmed, A., Mazumdar, D., Das, K., & Das, I. (2022). A comparative study of the magnetic and magnetocaloric effect of polycrystalline Gd0.9Y0.1MnO3 and Gd0.7Y0.3MnO3 compounds: Influence of Y-ions on the magnetic state of GdMnO3. Journal of Magnetism and Magnetic Materials, 551, 169133.

Bhattacharya, A., Habib, M. R., Ahmed, A., Satpati, B., DuttaGupta, S., & Dasgupta, I. (2024). Spin-valve-like magnetoresistance and anomalous Hall effect in magnetic Weyl metal. Physical Review B, 110(1), 014417.

Bhattacharya, A., Ahmed, A., DuttaGupta, S., & Das, I. (2023). Critical behavior and phase diagram of skyrmion-hosting material Co3.6Fe4.4Zn8Mn4 probed by anomalous Hall effect. Journal of Alloys and Compounds, 960, 170274.

Bhattacharya, A., PC, S., Ahmed, A., Kurebayashi, D., Tretiakov, O. A., Satpati, B., … (2025). Giant topological Hall effect in magnetic Weyl metal Mn2Pd0.5Ir0.5Sn. Advanced Functional Materials, 35(17), 2424841.

Ahmed, A., Das, K., & Das, I. (2024). Large magnetocaloric effect and giant magnetoresistance in rare earth based intermetallic compound ErAl3: Construction of magnetic phase diagram. Journal of Physics: Condensed Matter. Advance online publication.

Dr. Afsar Ahmed’s research on topological and magnetic materials advances fundamental understanding of quantum phenomena, enabling the development of next-generation spintronic devices and energy-efficient technologies, while fostering innovations that bridge materials science, industry applications, and global scientific progress.

Yuvraj Patil | Organic and Materials Chemistry | Best Researcher Award

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Assist. Prof. Dr. Yuvraj Patil | Organic and Materials Chemistry | Best Researcher Award

Chandigarh University, Punjab, India

Assist. Prof. Dr. Yuvraj Patil is an Assistant Professor at Chandigarh University, Punjab, with a Ph.D. in Organic Chemistry from IIT Indore (2018), where he researched near-infrared absorbing diketopyrrolopyrroles under the supervision of Prof. Rajneesh Misra. He also holds an M.Sc. in Organic Chemistry from Shivaji University and a B.Sc. in Chemistry from Shrimant Babasaheb Deshmukh Mahavidyalaya. Dr. Patil has over four years of international postdoctoral experience in the USA, France, Japan, Taiwan, and India, contributing to projects on COF materials for batteries, chiral organic RTP derivatives for OLEDs, and inorganic semiconducting materials from organometallic precursors for solar cells. His research interests include multistep organic synthesis, π-conjugated molecules, functional molecular dyes (DPPs, Aza-BODIPYs), organic photonics and electronics, supramolecular and organometallic chemistry, quantum dots, semiconducting materials, and electrochemistry. He possesses advanced skills in C–C coupling reactions, Schlenk-line techniques, chromatography, spectroscopy (NMR, MS, UV–Vis), crystallization, electrochemical studies, and computational chemistry (DFT, TD-DFT). Dr. Patil has authored 31 peer-reviewed publications, including 22 as first author, in high-impact journals such as Angew. Chem. Int. Ed., Adv. Funct. Mater., Chem. Rec., and J. Mater. Chem. A, with over 870 citations, an h-index of 19, and has filed a U.S. patent on nanoparticles incorporating quantum dots. His awards and recognitions include “Very Important Paper” and “Hot Paper” honors in Angew. Chem., invited cover designs, and invitations to present at international conferences and webinars. He has mentored four Master’s and three Ph.D. students and contributed extensively to undergraduate teaching at IIT Indore. With demonstrated leadership, global research exposure, and strong publication record, Dr. Patil is poised to advance high-impact research in organic and inorganic chemistry, expand international collaborations, participate in top-tier journal publications and keynote forums, and mentor the next generation of scientists, fostering innovation and excellence in optoelectronic materials and related fields.

Profiles: Scopus | ORCID | Google Scholar | LinkedIn

Featured Publications

  1. Jadhav, T., Dhokale, B., Patil, Y., Mobin, S. M., & Misra, R. (2016). Multi-stimuli responsive donor–acceptor tetraphenylethylene substituted benzothiadiazoles. The Journal of Physical Chemistry C, 120(42), 24030–24040.
  2. Patil, Y., Misra, R., Keshtov, M. L., & Sharma, G. D. (2016). 1,1,4,4-Tetracyanobuta-1,3-diene substituted diketopyrrolopyrroles: An acceptor for solution processable organic bulk heterojunction solar cells. The Journal of Physical Chemistry C, 120(12), 6324–6335.
  3. Patil, Y., & Misra, R. (2019). Rational molecular design towards NIR absorption: Efficient diketopyrrolopyrrole derivatives for organic solar cells and photothermal therapy. Journal of Materials Chemistry C, 7(42), 13020–13031.
  4. Patil, Y., & Misra, R. (2018). Diketopyrrolopyrrole‐based and tetracyano‐bridged small molecules for bulk heterojunction organic solar cells. Chemistry–An Asian Journal, 13(3), 220–229.
  5. Patil, Y., Misra, R., Keshtov, M. L., & Sharma, G. D. (2017). Small molecule carbazole-based diketopyrrolopyrroles with tetracyanobutadiene acceptor unit as a non-fullerene acceptor for bulk heterojunction organic solar cells. Journal of Materials Chemistry A, 5(7), 3311–3319.

Assist. Prof. Dr. Yuvraj Patil’s work advances scientific understanding and technological innovation by developing cutting-edge solutions  His research bridges academia and industry, driving societal benefits through sustainable applications and fostering global innovation.

Xiao Yan | Materials Science | Best Researcher Award

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Prof. Xiao Yan | Materials Science | Best Researcher Award

Jiangsu Normal University, China

Prof. Xiao Yan, Ph.D., is a distinguished Professor and Dean of the Department of Materials Science and Engineering at Jiangsu Normal University, widely recognized for his contributions to advanced energy materials and sustainable technologies. He received his Ph.D. through the Master-PhD program at the School of Physics, Jilin University (2009–2014), and later conducted postdoctoral research at the Qingdao Institute of Bioenergy and Process Technology, Chinese Academy of Sciences (2014–2016). Over the past decade, Prof. Xiao has built a strong academic career supported by major research grants, including multiple projects from the National Natural Science Foundation of China (NSFC) and provincial funding bodies, serving as Principal Investigator for more than ten funded projects. His primary research interests lie in lithium/sodium-ion batteries, lithium-sulfur batteries, and the recycling and reuse of waste lithium-ion batteries, areas critical for sustainable energy development. With over 50 publications indexed in SCI journals, including leading outlets such as Angewandte Chemie International Edition, Nano Letters, and ACS Nano, he has accumulated 1,451 citations and an h-index of 22, demonstrating significant global impact. He also holds six authorized patents and has collaborated with international teams, reflecting both scientific innovation and applied relevance. Prof. Xiao’s research skills span advanced materials synthesis, electrochemical performance evaluation, battery recycling methods, and interdisciplinary project leadership, ensuring a balance between theoretical and applied science. In addition to his research, he has been a dedicated mentor, guiding students to national-level recognition, including a Special Prize in the Challenge Cup (2024) and awards in the National Undergraduate Chemical Engineering Competition. His achievements have earned him several honors, notably the Provincial Outstanding Doctoral Dissertation Award (2015) and the Jiangsu Military-Civilian Integration Science and Technology Innovation Award (2018). In conclusion, Prof. Xiao exemplifies academic excellence, innovation, and leadership in materials science, and his ongoing work positions him as a key figure driving advancements in clean energy technologies and sustainable practices with lasting global impact.

Profiles: Scopus | ORCID

Featured Publications

  1. Cai, J., Li, Y., Xu, S., Li, Y., Wang, Z., Liu, J., Yang, S., & Yan, X. (2025). A review on the insights into redox-based regeneration strategies for LiFePO4 batteries. Nanoscale. Advance online publication.

  2. Xu, S., Cai, J., Liu, T., An, G., Li, Y., Wang, Z., Liu, J., Li, Y., & Yan, X. (2025). A review on electrochemical recycling of spent lithium-ion batteries electrode materials: Technology innovation-driven resource closed-loop systems and sustainable development. Separation and Purification Technology. Advance online publication.

  3. Li, Y., Chen, Q., Wang, Z., Liu, J., Cai, J., Gu, H., Liu, Z., Wang, M., Long, Z., & Yan, X. (2025). Reverse modulation of carbon-interface electron density via s-d block high-entropy-alloys boosts Li–S batteries. Angewandte Chemie International Edition. Advance online publication.

  4. Li, Y., Chen, Q., Wang, Z., Liu, J., Cai, J., Gu, H., Liu, Z., Wang, M., Long, Z., & Yan, X. (2025). Reverse modulation of carbon-interface electron density via s-d block high-entropy-alloys boosts Li–S batteries. Angewandte Chemie. Advance online publication.

  5. Liu, J., Long, Z., Cai, J., Gu, H., Li, Y., & Yan, X. (2025). Breaking electronic symmetry via axial asymmetric coordination at Co site in dual-channel catalyst boosts high-performance Li–S batteries. Nano Letters. Advance online publication.

Jacob Olchowka | Materials Science | Innovative Research Award

Published on by WSA Awards

Dr. Jacob Olchowka | Materials Science | Innovative Research Award

ICMCB (Institute of Condensed Matter Chemistry of Bordeaux), France

Dr. Jacob Olchowka is a French CNRS researcher in the field of material science with a specialization in electrochemical energy storage, particularly Na-ion/Li-ion batteries, hybrid supercapacitors, and direct recycling of lithium-ion batteries. He earned his Ph.D. in Material Science with very honorable mention through a joint program between the University of Lille, France, and the University of Siegen, Germany, following a Master’s degree in Chemistry, Energy, and Environment and a Bachelor’s degree in Physical Chemistry from the University of Lille, and more recently completed his Habilitation (HDR) at the University of Bordeaux in 2025. His professional career includes international postdoctoral experiences at the University of Geneva, Switzerland, and the University of Siegen, Germany, before securing a permanent CNRS position at ICMCB in 2017. His research interests cover synthesis and nanostructuration of electrode materials, surface modifications, operando and in-situ characterizations, crystallochemistry, and the regeneration of end-of-life electrodes. Skilled in advanced synthesis methods (solid-state, sol-gel, ionothermal, molten salt), particle morphology control, structural characterizations (XRD, Raman, IR, UV-vis, SEM, XAS), and electrochemical testing, he combines fundamental and applied expertise to address energy challenges. His contributions include 56 peer-reviewed publications, 4 patents, more than 900 citations, an h-index of 18, and leadership in major projects such as ANR NANO-INSPIRE, REGENERATE, and H-BAT, alongside supervision of Ph.D. and postdoctoral researchers, teaching commitments at the University of Bordeaux, and involvement in European programs such as Battery 2030+ and H2020 NAIMA. He has received notable honors, including the ANR Young Researcher Grant, Fondation Roi Baudouin – Solvay Grant, and recognition for his research presentations, while being an active member of RS2E, Alistore, and the French Chemical Society. With his strong international collaborations, scientific leadership, and commitment to mentoring, Dr. Olchowka has established himself as an influential researcher whose work significantly advances sustainable energy storage and positions him as a future leader in the global transition toward greener technologies.

Profile: Scopus | ORCID | LinkedIn

Featured Publications

Croguennec, L., Duttine, M., Grebenshchikova, A., Lyonnard, S., Olchowka, J., Simonin, L., & Stievano, L. (2027). Multi-scale multi-techniques investigations of Li-ion batteries: Towards a European Battery Hub [Dataset]. European Synchrotron Radiation Facility.

Grebenshchikova, A., Olchowka, J., Simonin, L., Yaroslavtsev, S., Duttine, M., Fauth, F., Stievano, L., Masquelier, C., & Croguennec, L. (2025). Na₂Fe₃(SO₄)₄: A zero‐strain sustainable positive electrode material for Na‐ion batteries. Angewandte Chemie International Edition. Advance online publication.

Grebenshchikova, A., Olchowka, J., Simonin, L., Yaroslavtsev, S., Duttine, M., Fauth, F., Stievano, L., Masquelier, C., & Croguennec, L. (2025). Na₂Fe₃(SO₄)₄: A zero‐strain sustainable positive electrode material for Na‐ion batteries. Angewandte Chemie. Advance online publication.

Grebenshchikova, A., Olchowka, J., Simonin, L., Duttine, M., Weill, F., Suard, E., Masquelier, C., & Croguennec, L. (2025). NaSICON NaFe₂PO₄(SO₄)₂ revisited: Insights into the crystal structure and electrochemical performance. ACS Applied Energy Materials. Advance online publication.

Hayagan, N., Guillou, P., Olchowka, J., Ercicek, F., Lecoutre, C., Nguyen, O., Aymonier, C., Marre, S., Erriguible, A., & Philippot, G. (2025). Understanding the role of pressurized CO₂ in the direct recycling process of Li-ion battery positive electrode. Journal of CO₂ Utilization, 103, 103080.