Assoc. Prof. Dr. Jinxing Wang | carbon Materials | Best Researcher Award
Assoc. Prof. Dr. Jinxing Wang , Chongqing University ,China
Profesional Profile:
🎓Education:
🏢Work Experience:
🏅Research and Achievements:
Prof. Jinxing Wang is a highly accomplished researcher whose contributions have significantly impacted the field of materials science and engineering. With over 77 published papers garnering more than 1300 citations, his work has been prominently featured in 41 SCI and SCIE indexed journals. Prof. Wang’s research primarily focuses on electrocatalysis, magnesium alloys, and the analysis of metal failures, reflecting his expertise in advancing battery technologies, particularly in magnesium-air systems.
🏆Awards and Recognition:
Prof. Jinxing Wang’s impressive accomplishments speak volumes about his stature in the field of materials science and engineering. With a substantial publication record, including over 77 papers cited more than 1300 times and featured in prestigious SCI and SCIE indexed journals, he has established himself as a leading authority in nano-energy battery materials.Prof. Wang’s ability to secure significant research funding amounting to USD 1 million underscores his leadership and capability in advancing scientific research. His academic contributions extend beyond publications and funding, encompassing 80 consultancy projects and extensive global collaborations, which highlight his influence and expertise in the international scientific community.Moreover, Prof. Wang’s role as a reviewer for respected journals and his impactful presentations at major conferences further demonstrate his commitment to scholarly excellence and knowledge dissemination. Collectively, these achievements solidify Prof. Jinxing Wang’s pivotal role in shaping the landscape of materials science and engineering, particularly in the development of sustainable battery technologies.
Publication Top Notes:
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First-Principles Calculations of TiB4 and TiB5 as Anodes with High Capacity for Na-Ion Batteries
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Citations: 0
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Achieving high strength and rapid degradation in Mg-Gd-Ni alloys by regulating LPSO phase morphology combined with extrusion
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Citations: 14
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Enhanced catalytic activity of ZnWO4 by nickel-doping in oxygen evolution reactions
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Citations: 2
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Portland cementitious coating with autogenerated oxide film and its anticorrosion behavior on magnesium alloy
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Citations: 5
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Research Progress and the Prospect of Damping Magnesium Alloys
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Citations: 3
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