Chen Xu | Martensitic Transformation | Best Materials Engineering Award

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Chen Xu | Martensitic Transformation | Best Materials Engineering Award

Doctor at China Jiliang University | China

Dr. Chen Xu is an Assistant Research Fellow at China Jiliang University specializing in the metallurgy and materials science of magnesium, aluminum, titanium, and copper alloys. He earned his Ph.D. in Materials Science and Engineering from Zhengzhou University, following an M.D. in Metallurgical Engineering from Lanzhou University of Technology and a B.A. in Metallurgical Engineering from Lanzhou College of Information Science and Technology. His research spans melting processes, microstructure, heat treatment, deformation treatment, corrosion resistance, coatings, martensitic transformations, and first-principles calculations. Dr. Xu has contributed to several national research projects, including those funded by the National Natural Science Foundation of China, and has authored multiple peer-reviewed publications in high-impact journals such as Materials & Design, Journal of Magnesium and Alloys, Materials Science & Engineering A, and Journal of Alloys and Compounds. His recent works cover topics like heat treatment effects on Mg-Sc alloys, martensitic transformation behavior, micro-galvanic corrosion, and advanced aluminum-titanium-carbon master alloys. He has also published research on the optimization of aluminum alloys and collaborated on interdisciplinary studies involving carbon quantum dots for cancer therapy. With a 7 Scopus-indexed publications citation count of 67 and an h-index of 4 on Scopus, his profile is at an early stage of international recognition, supported by active involvement in national projects, editorial board membership with Modern Chemical Research, and patent applications. Chen Xu’s contributions demonstrate a clear trajectory toward impactful innovations in advanced materials engineering, combining experimental studies with computational insights to advance alloy design and performance.

Profile: Scopus | ORCID

Featured Publicationns

Xu, C., Liu, S., Wang, J., & Li, H. (2023). Initial micro-galvanic corrosion behavior between Mg₂Ca and α-Mg via quasi-in situ SEM approach and first-principles calculation. Journal of Magnesium and Alloys, 11(3), 958–965. Cited by: 21

Xu, C. (2023). Martensitic transformation behavior during tensile testing at room temperature in β-type Mg-35 wt%Sc alloy. Materials Science & Engineering A, 865, 144602. Cited by: 7

Xu, C. (2023). Effect of quenching temperature on microstructure and mechanical properties of Mg-35 wt%Sc alloy. Journal of Alloys and Compounds, 943, 169165. Cited by: 5

Xu, C. (2019). Preparation and synthesis thermokinetics of novel Al-Ti-C-La composite master alloys. Journal of Alloys and Compounds, 776, 904–911. Cited by: 43

Xu, C. (2017). Effect of Al-5Ti-0.62C-0.2Ce master alloy on the microstructure and tensile properties of commercial pure Al and hypoeutectic Al-8Si alloy. Metals, 7(6), 227. Cited by: 52

Bel Abbes Bachir Bouiadjra | Adhesive Joining | Best Researcher Award

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Bel Abbes Bachir Bouiadjra | Adhesive Joining | Best Researcher Award

Head of Research Lab at Djillali Liabes University | Algeria

Prof. Dr. Bel Abbes Bachir Bouaiadjra is a Professor in the Department of Mechanical Engineering at Djillali Liabes University of Sidi Bel Abbes, Algeria, with extensive expertise in materials science, fracture mechanics, and composite structures. He has also served as a visiting professor at King Saud University in Riyadh. A distinguished scholar, he won the prestigious Scopus Award in Materials Science for his outstanding research contributions. His scientific work focuses on nanomaterials, biopolymers, biocomposites, polymer testing, and the fatigue and fracture of aircraft structures, composites, biomaterials, and bimaterials such as ceramic–metal assemblies. Over his career, he has directed significant projects, including the study of residual stresses in ceramic-metal assemblies and the influence of micro-defects in cement mantles on hip prostheses. His international collaborations include research with King Abdulaziz City for Science and Technology (Saudi Arabia), the University of Tours (France), and the University of La Rochelle (France). Professor Bouaiadjra has authored numerous publications in ISI-indexed journals, addressing advanced topics such as bonded composite patch repair of aircraft structures, optimization of polymer composites, fatigue crack growth, and finite element analyses of biomedical implants. According to his Scopus profile, he has produced more than 166 publications, with over 2,946 citations and an h-index of 32, reflecting the global impact of his research in mechanical and materials engineering. His academic excellence, international visibility, and leadership in collaborative projects underscore his role as a leading figure in fracture mechanics and advanced composite materials.

Profile: Scopus | ORCID | Google Scholar

Feautured Publications

Bouchkara, N. H. M., Albedah, A., Benyahia, F., Mohammed, S. M. A. K., & Bouiadjra, B. A. B. (2021). Experimental and numerical analyses of the effects of overload on the fatigue life of aluminum alloy panels repaired with bonded composite patch. International Journal of Aeronautical and Space Sciences, 22(4), 1012–1024. Cited by: 12

Kaddour, S., Bennouna, M. S., Aour, B., Bouiadjra, B. A. B., Benaissa, A., & Bouanani, M. F. (2019). Numerical investigation of the adhesive damage used for the repair of A5083 H11 aluminum structures by composites patches. International Journal of Engineering Research in Africa, 44, 22–33. Cited by: 4

Ali, B. M., Chikh, E. O., Meddah, H. M., & Bouiadjra, B. A. B. (2019). Plasticity effect on the mechanical behavior of an amorphous polymer. International Journal of Engineering Research in Africa, 43, 1–12. Cited by: 3

Khellafi, H., Bouziane, M. M., Djebli, A., Mankour, A., Bendouba, M., Bouiadjra, B. A. B., & Chikh, E. O. (2019). Investigation of mechanical behaviour of the bone cement (PMMA) under combined shear and compression loading. Journal of Biomimetics, Biomaterials and Biomedical Engineering, 41, 37–45. Cited by: 5

Kaddour, S., Aour, B., Bouiadjra, B. A. B., Bouanani, M. F., & Khelil, F. (2018). Analysis of crack propagation by bonded composite for different patch shapes repairs in marine structures: A numerical analysis. International Journal of Engineering Research in Africa, 35, 175–185. Cited by: 7

Salah, H., Bouziane, M. M., Fekih, S. M., Bouiadjra, B. A. B., & Benbarek, S. (2018). Optimisation of a reinforced cement spacer in total hip arthroplasty. Journal of Biomimetics, Biomaterials and Biomedical Engineering, 35, 35–42. Cited by: 6

Mohammed Ali Abdo Ahmed Algradee | Glass Science | Best Researcher Award

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Mohammed Ali Abdo Ahmed Algradee | Glass Science | Best Researcher Award

Professor at Ibb University | Yemen

Mohammed Ali Abdo Ahmed Algradee is a Professor of Solid State Physics and Material Science in the Physics Department at Ibb University, Yemen, where he has also served as Dean of the Faculty of Science and Engineering at Aljazeera University. His academic path includes a B.Sc. in Physics and Mathematics from Taiz University, an M.Sc. and Ph.D. in Physics from Minufiya University, Egypt, with research focusing on semiconducting phosphate glasses and semiconductor nanocrystals in glass matrices. His expertise spans the optical, electrical, thermal, and dielectric properties of novel solid materials, semiconducting glasses, nanocrystals, thin films, and their structural-property relationships, supported by advanced experimental techniques including X-ray diffraction, Raman and IR spectroscopy, and dielectric analysis. He has authored numerous publications in high-impact journals such as Optik, Journal of Non-Crystalline Solids, Radiation Physics and Chemistry, Materials Science in Semiconductor Processing, and Applied Physics A, with his recent works addressing radiation shielding, optical characteristics of doped glass systems, and thin-film technologies. According to his Scopus profile, he has published over 26 indexed documents, received more than 520 citations, and achieved an h-index of 14, underscoring his growing influence in solid-state physics and materials science. His contributions extend beyond research to teaching courses in solid-state physics, plasma physics, ceramics and composites, and mentoring graduate students, while also participating in international collaborations and scientific workshops. Through a combination of consistent publication output, applied research in radiation shielding and optical materials, and dedicated academic leadership, Professor Algradee continues to strengthen his position as a significant figure in the field of solid-state physics.

Profile: Scopus | ORCID | Google Scholar

Featured Publication

Algradee, M. A., Sultan, M., Samir, O. M., & Alwany, A. E. B. (2017). Electronic polarizability, optical basicity and interaction parameter for Nd₂O₃ doped lithium–zinc–phosphate glasses. Applied Physics A, 123(8), 524. Cited by: 125.

Alwany, A. B., Youssef, G. M., Saleh, E. E., Samir, O. M., Algradee, M. A., & Alnehia, A. (2022). Structural, optical and radiation shielding properties of ZnS nanoparticles QDs. Optik, 260, 169124. Cited by: 53.

Saleh, E. E., Algradee, M. A., El-Fiki, S. A., & Youssef, G. M. (2022). Fabrication of novel lithium lead bismuth borate glasses for nuclear radiation shielding. Radiation Physics and Chemistry, 193, 109939. Cited by: 42.

Algradee, M. A., Alwany, A. E. B., Sultan, M., Elgoshimy, M., & Almoraisy, Q. (2017). Physical and optical properties for Nd₂O₃ doped lithium-zinc-phosphate glasses. Optik, 142, 13–22. Cited by: 40.

Algradee, M. A., Saleh, E. E., Samir, O. M., Alwany, A. B., & El Sherbini, T. M. (2022). Evaluation of structural, elastic properties and nuclear radiation shielding competence of Nd³⁺ doped lithium-zinc-phosphate glasses. Journal of Non-Crystalline Solids, 576, 121304. Cited by: 38.

Algradee, M. A., Saleh, E. E., El Sherbini, T. M., & El-Mallawany, R. (2021). Optical and gamma-ray shielding features of Nd³⁺ doped lithium-zinc-borophosphate glasses. Optik, 242, 167059. Cited by: 38.

 

Yuqing Chen | Electrochemical | Best Researcher Award

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Yuqing Chen | Electrochemical | Best Researcher Award

Associated Professor at Zhejiang Shuren University | China

Dr. Yuqing Chen is currently serves as a Distinguished Associate Researcher at the Institute of Interdisciplinary Sciences, Zhejiang Shuren University. She earned her Ph.D. in Advanced Energy Materials from Hunan University under the supervision of Professor Jilei Liu, a National Young Talent awardee and Vice Dean of the School of Materials Science and Engineering. Prior to this, she completed a joint Master’s program in Electrochemical Technology at Tsinghua University under Professor Xiangming He and obtained a Master’s degree in New Energy Materials and Devices from Wuhan University of Technology under Professor Quanyao Zhu. Her undergraduate studies were in Inorganic Nonmetallic Materials at Wuhan University of Engineering. Dr. Chen’s research focuses on new energy materials and devices, particularly on lithium-ion battery electrolyte design, solvation chemistry, and electrochemical safety. She previously worked as an electrolyte development engineer at Zhejiang Provincial Chemical Research Institute (Sinochem Blue Sky Group), where she designed novel solvent and additive molecules and evaluated battery safety under international standards. She currently leads teaching in university-level chemistry courses, energy chemistry curriculum development, and energy materials research. Dr. Chen has authored 10 SCI-indexed articles with a total impact factor of 150, holds three patents, co-authored one translated book, and has accumulated over 2,500 citations, with an h-index of 19. She has led national projects on high-performance and wide-temperature lithium-ion battery electrolytes and has received multiple honors including the Zhejiang Provincial Intellectual Property Award, the JEC 2021 Best Paper Award, National Scholarship, and other academic and research distinctions.

Profilie: Scopus | ORCID | Google Scholar

Featured Publications

Chen, Y., Kang, Y., Zhao, Y., Wang, L., Liu, J., Li, Y., Liang, Z., He, X., Li, X., et al. (2021). A review of lithium-ion battery safety concerns: The issues, strategies, and testing standards. Journal of Energy Chemistry, 59, 83–99.

Chen, Y., He, Q., Zhao, Y., Zhou, W., Xiao, P., Gao, P., Tavajohi, N., Tu, J., Li, B., et al. (2023). Breaking solvation dominance of ethylene carbonate via molecular charge engineering enables lower temperature battery. Nature Communications, 14(1), 8326.

Chen, Y., He, Q., Mo, Y., Zhou, W., Zhao, Y., Piao, N., Liu, C., Xiao, P., Liu, H., Li, B., et al. (2022). Engineering an insoluble cathode electrolyte interphase enabling high performance NCM811//graphite pouch cell at 60° C. Advanced Energy Materials, 12(33), 2201631.

Kang, Y., Deng, C., Chen, Y., Liu, X., Liang, Z., Li, T., Hu, Q., Zhao, Y. (2020). Binder-free electrodes and their application for Li-ion batteries. Nanoscale Research Letters, 15(1), 112.

Mo, Y., Zhou, W., Wang, K., Xiao, K., Chen, Y., Wang, Z., Tang, P., Xiao, P., Gong, Y., et al. (2023). Engineering electrode/electrolyte interphase chemistry toward high-rate and long-life potassium ion full-cell. ACS Energy Letters, 8(2), 995–1002.

Zhou, W., He, B., Quan, L., Li, R., Chen, Y., Fan, C., Chen, S., Xu, C., Fan, X., Xing, L., et al. (2023). Binder chemistry dependent electrolyte reduction in potassium‐ion batteries: A successive, two‐step reduction way. Advanced Energy Materials, 13(2), 2202874.

 

 

Michele Greque De Morais | Hydrothermal Synthesis | Breakthrough Research Award

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Michele Greque De Morais | Hydrothermal Synthesis | Breakthrough Research Award

Research scholar at Federal University of Rio Grande |  Brazil

Prof. Dr. Michele Greque de Morais is a distinguished scholar at the Federal University of Rio Grande, recognized for her pioneering research in food engineering, biotechnology, and nanobiotechnology. She earned her degrees in Food Science and Engineering at FURG, complemented by international academic experiences at Philipps-Universität Marburg in Germany, the Scripps Institution of Oceanography, and the University of California, San Diego. Her scientific output is extensive, with over 150 peer-reviewed journal articles, 56 book chapters, 58 published books, and more than 200 conference papers. She has also contributed significantly to innovation with 27 patents and the development of 13 technological products. According to Scopus, she has authored 185 indexed works, accumulating 7246 citations with a robust h-index of 47, reflecting the global impact and recognition of her research contributions. Beyond academia, she has led 33 completed and 23 ongoing research projects, partnered with industries in 16 consultancy projects, and played key roles in national and international collaborations focused on sustainable development, microalgae-based bioproducts, and carbon biofixation technologies. Her editorial leadership includes serving as Associate Editor for Bioresource Technology. She has supervised numerous graduate and postgraduate students, shaping future generations of researchers, and has been recognized among the world’s most influential scientists by PLOS Biology. Through her dedication to advancing sustainable bioprocesses, food security, and biotechnology applications, Professor Michele Greque de Morais has established herself as a leading researcher with a profound impact on both scientific knowledge and societal development

Pofile: ScopusORCID | Google Scholar

Featured Publication

De Morais, M. G., & Costa, J. A. V. (2007). Biofixation of carbon dioxide by Spirulina sp. and Scenedesmus obliquus cultivated in a three-stage serial tubular photobioreactor. Journal of Biotechnology, 129(3), 439–445.

De Morais, M. G., Vaz, B. S., De Morais, E. G., & Costa, J. A. V. (2015). Biologically active metabolites synthesized by microalgae. BioMed Research International, 2015(1), 835761.

De Morais, M. G., & Costa, J. A. V. (2007). Isolation and selection of microalgae from coal-fired thermoelectric power plant for biofixation of carbon dioxide. Energy Conversion and Management, 48(7), 2169–2173.

De Morais, M. G., & Costa, J. A. V. (2007). Carbon dioxide fixation by Chlorella kessleri, C. vulgaris, Scenedesmus obliquus and Spirulina sp. cultivated in flasks and vertical tubular photobioreactors. Biotechnology Letters, 29(9), 1349–1352.

Costa, J. A. V., & De Morais, M. G. (2011). The role of biochemical engineering in the production of biofuels from microalgae. Bioresource Technology, 102(1), 2–9.

da Silva Vaz, B., Moreira, J. B., De Morais, M. G., & Costa, J. A. V. (2016). Microalgae as a new source of bioactive compounds in food supplements. Current Opinion in Food Science, 7, 73–77.

Raghukumar Bommenahalli | Mechanical Metallurgy | Best Researcher Award

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Raghukumar Bommenahalli | Mechanical Metallurgy | Best Researcher Award

Prinicipal Engineer at DEKRA Certification, Inc. | United States

Mr. Raghukumar Bommenahalli is a seasoned mechanical engineer with over two decades of industrial experience specializing in zero-emission transportation and energy infrastructure. Currently serving as Principal Engineer at DEKRA Certification Inc., he leads the Vehicle Innovation Grid Lab (ViGIL) and ADAS Data Collection Program, advancing California’s clean transportation initiatives through rigorous EV and EVSE testing, standards compliance, and interoperability validation. Prior to this, he was Program Manager for Codes and Standards at Nikola Motor Corporation, where he guided regulatory compliance and standards development for battery-electric and fuel-cell electric vehicles, including cybersecurity frameworks and ADAS integration for heavy-duty trucks. His earlier role at Cummins Inc. as Codes and Standards Compliance Leader saw him authoring 40+ validation plans across UL, CSA, IEC, and EN standards while pioneering hydrogen fuel cell and BEV compliance programs. Raghukumar has also contributed to major engineering projects in roles with TAAL Technologies, Creative Synergies Group, Toyo Denki Power Systems, and Cummins Generator Technologies. He is actively involved in global standards development as a voting member on multiple SAE task forces and as Co-Chair of the CharIN NACI Task Force. With a strong academic foundation that includes an Executive Master’s in Engineering Management from St. Cloud State University, a Master’s in Machine Design, and a Bachelor’s in Mechanical Engineering from Visvesvaraya Technological University, he complements his technical expertise with certifications such as PMP, DFSS, and internal auditing. In addition to his leadership in compliance, testing, and certification, he contributes as a peer reviewer for leading journals, organizes technical conferences, and holds a registered design patent in EV charging efficiency.

Pofile: Scopus | ORCID

Featured Publication

Bommenahalli, R. (2025). Effect of nickel on the mechanical properties of spray-formed Al-15Si-2Cu alloy at elevated temperatures. Journal of Alloys and Compounds.

Bommenahalli, R. (2025). Computing device for enhancing charging efficiency in electric vehicle [Patent]. UK Intellectual Property Office.

Bommenahalli, R. (2025). Fuel cell Class 8 trucks: Pioneering the path to sustainable heavy transportation. Website article.

Bommenahalli, R. (2025). Navigating the future: Innovations reshaping the EV charging landscape. International Business Times.

Seyed Morteza Mirmohammadi | Thermoplastic Composites | Best Researcher Award-duplicate-1

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Seyed Morteza Mirmohammadi | Thermoplastic Composites | Best Researcher Award

Islamic Azad University |  Iran

Dr. Seyed Morteza Mirmohammadi is an Iranian researcher whose academic and professional trajectory spans textile engineering, polymer-based composites, and industrial systems optimization. He earned his B.Sc. in Textile Engineering from Islamic Azad University, Kashan, followed by an M.Sc. in Industrial Engineering from Islamic Azad University. He is currently pursuing a Ph.D. in Textile Engineering at Islamic Azad University, alongside completing a DBA in Finance from Fanavaran Hakim, Iran, reflecting his multidisciplinary academic profile. His research focuses on advanced materials, particularly polymer-based composites and hybrid woven fabrics, with a strong emphasis on ballistic impact resistance and energy absorption in textile structures. He applies advanced optimization techniques such as Response Surface Methodology (RSM) and Analytic Hierarchy Process (AHP) to develop efficient design and management strategies in engineering systems. Mirmohammadi has presented at numerous national and international conferences, actively contributing to the fields of industrial engineering, composites, and textile technologies, and has published several scholarly works, including notable studies on ballistic impact resistance of hybrid Kevlar/Polypropylene woven fabric composites. He has also been engaged in academic workshops on strategic management and quality systems, aligning his technical expertise with organizational and managerial insights. His professional qualifications include certifications in internal auditing, occupational health and safety, CE marking and risk assessment, as well as marketing management. With advanced skills in research, academic writing, statistical modeling software (SPSS, MATLAB, MINITAB), and quality engineering, he has positioned himself as a versatile scholar and practitioner bridging the gap between materials science, textile engineering, and strategic industrial management.

Pofile: ORCID

Featured Publication

Mirmohammadi, S. M., Shaikhzadeh Najar, S., & Kamali Dolatabadi, M. (2025). Energy absorption of ballistic impact in hybrid Kevlar/Polypropylene woven fabric composites preloaded under simple shear mode: Response surface methodology modeling utilizing a Box–Behnken design. Polymer Composites.

Liyuan Liu | Alloy Development | Best Researcher Award

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Liyuan Liu | Alloy Development | Best Researcher Award

Professor at Kunming University of Science and Technology |  China

Liyuan Liu is a Professor of Metallurgical Engineering at Kunming University of Science and Technology, China, with a Doctor of Engineering degree from Harbin Engineering University. As a high-level talent introduction scholar, he has established himself as a leading researcher in high-entropy alloys (HEAs), focusing on synergistic enhancement of strength–ductility, radiation resistance, and high-strength/high-conductivity copper alloys. Over his career, he has published 48 peer-reviewed papers in top international journals including Advanced Science, Acta Materialia, International Journal of Plasticity, Journal of Materials Science & Technology, and Scripta Materialia. His impactful research has garnered more than 877 citations with an H-index of 12, reflecting both the quality and influence of his work in the field. He has led or participated in over ten major research projects funded by the National Natural Science Foundation of China, the National Key R&D Program, and the Ministry of Industry and Information Technology, contributing to both theoretical advances and engineering applications. His innovations include the development of nanoprecipitate-strengthened HEAs, elucidation of stacking fault and twinning deformation mechanisms, and breakthroughs in flash-heating-driven chemical supersaturation to achieve high-density nanoprecipitates. Beyond research, he holds several patents in high-entropy alloy and stainless-steel systems, underscoring his contributions to applied materials science. Professor Liu is also active in professional societies, serving as a member of the Chinese Society for Materials Research, the Chinese Nuclear Society (Radiation Effects Branch), and the China Nonferrous Metals Association. His work continues to shape the advancement of next-generation structural and functional alloys for nuclear, aerospace, and energy applications

Pofile: Scopus

Featured Publication

Li, G., Liu, L., Gao, P., Teng, Z., Lu, Q., Xu, Z., Fu, L., & Yi, J. (2025). Enhancing the mechanical properties of multi-principal element alloys via constructing dual-heterostructures through the immiscibility between elements. Materials Science and Engineering A.

Luo, R., Liu, L., Teng, Z., Yi, J., & Li, C. (2025). Achieving strength-ductility synergy in a multi-principal element alloy via constructing multi-scale heterostructures controlled by spinodal decomposition. Journal of Alloys and Compounds.

Peng, Y., Xu, Z., Fu, L., Liu, L., Gao, P., Lu, Q., Tao, J., Bao, R., Yi, J., & Li, C. (2025). Achieving strength–ductility synergy in aluminum matrix composites through promoting the intragranular distribution of nanoparticles. Advanced Composites and Hybrid Materials.

Liu, L., Zhang, Y., Li, J., Fan, M., Wang, X., Wu, G., Yang, Z., Luan, J., Jiao, Z., Liu, C. T., Liaw, P. K., & Zhang, Z. (2022). Enhanced strength-ductility synergy via novel bifunctional nano-precipitates in a high-entropy alloy. International Journal of Plasticity, 153, 103235.

Liu, L., Zhang, Y., Zhang, Z., Li, J., Jiang, W., & Sun, L. (2024). Nanoprecipitate and stacking fault-induced high strength and ductility in a multi-scale heterostructured high entropy alloy. International Journal of Plasticity, 172, 103853.

Bing Song | Mineral Solid Waste | Best Researcher Award

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Bing Song | Mineral Solid Waste | Best Researcher Award

Anhui University of Technology |  China

Dr. Bing Song is a distinguished Associate Professor in the School of Energy and Environment at Anhui University of Technology, specializing in environmental engineering and pollution control research. He obtained his Ph.D. in Environmental Science and Engineering from Southeast University, following a Master’s degree and Bachelor’s degree in Chemical Engineering from Henan Polytechnic University. He has served as a specially-appointed associate professor in the Department of Environmental Engineering, focusing his academic and research efforts on the mitigation of hazardous emissions and the development of advanced functional materials for environmental applications. His research has significantly contributed to the understanding and control of arsenic emissions during coal combustion, including work on Fe2O3 microspheres, CeO2/Fe2O3 nanosheets, CaO, and CaSiO3 materials for high-temperature arsenic capture. His findings have been published in leading international journals such as Environmental Science & Technology, Science of The Total Environment, Fuel, Fuel Processing Technology, and Chemosphere. In addition, his work has provided mechanistic insights into the environmental safety of arsenic in by-products such as fly ash-derived ceramsite. Through his publications and contributions, Bing Song has established himself as a rising researcher in the field of energy and environment, advancing sustainable approaches to pollutant control and environmental remediation while building international recognition for his innovative methods in managing arsenic emissions and related environmental challenges.

Pofile: Scopus

Featured Publication

Meng, F., & Song, B. (2025). In-situ synthesis of resin carbon-supported CoFexOy catalyst with enhanced catalytic performance for dye degradation in wastewater. Water, Air, & Soil Pollution, 236(10), Article 666.

Cao, Z., Li, Q., Meng, F., Shen, G., & et al. (2024). The reaction mechanism and application of advanced oxidation of peracetic acid: A review. Journal of Environmental Chemical Engineering.

Ling Ge | Energy and Fuels | Best Researcher Award

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Ling Ge | Energy and Fuels | Best Researcher Award

Wuhan University of Science and Technology |  China

Dr. Ling Ge is a Ph.D. candidate at the School of Resources and Environmental Engineering, Wuhan University of Science and Technology, specializing in advanced energy materials and energy storage technologies. Her research centers on the development and performance optimization of vanadium redox flow batteries (VRFBs), with a particular emphasis on engineering high-performance and highly stable vanadium electrolytes. She has been actively engaged in projects funded by the National Natural Science Foundation of China and the Science and Technology Innovation Talent Program of Hubei Province. Her contributions address one of the critical limitations in VRFB technology by expanding the operational temperature range of vanadium electrolytes, while simultaneously improving concentration levels, thus enhancing both stability and energy density. Ling Ge has published in leading journals, including Frontiers of Chemical Science and Engineering and Chemical Engineering Journal, with 15 citations indexed in WOS. Her research has led to the development of new patents, such as electrolyte preparation methods based on composite acid media, and she has contributed to collaborative efforts in deploying a 10 kW vanadium redox flow battery–photovoltaic integrated system. Dedicated to innovation in sustainable energy storage, she has consistently demonstrated strong analytical and experimental skills in advancing electrolyte chemistry and system integration. With her proven record of impactful contributions, she positions herself as a promising young researcher and a strong candidate for recognition under the Best Researcher Award category.

Profile: ORCID

Featured Publication

Ge, L., Liu, T., Zhang, Y., & Liu, H. (2025). Research of high temperature performance of vanadium electrolytes with sulfate-phosphoric mixed acid system. Chemical Engineering Journal, 468, 168239.

Ge, L., Liu, T., Zhang, Y., & Liu, H. (2024). Optimized the vanadium electrolyte with sulfate-phosphoric mixed acids to enhance the stable operation at high-temperature. Frontiers of Chemical Science and Engineering, 18(2), 2377.

Ge, L., Liu, T., Zhang, Y., & Liu, H. (2023). Characterization and comparison of organic functional groups effects on electrolyte performance for vanadium redox flow battery. Frontiers of Chemical Science and Engineering, 17(9), 1221–1230.