Dr. Xudong Hu , Henan University , China.
Dr. Xudong HuΒ is a passionate researcher dedicated to advancing sustainable technologies for hydrogen production, water treatment, and environmental remediation π§π¬. With a Bachelorβs degree from Liaoning Technical University π and currently pursuing his Masterβs at Henan University π, he has contributed significantly to catalyst design and pollutant degradation π§ͺπ. As the first or co-first author of multiple high-impact publications π, Xudong blends computational and experimental methods to tackle environmental challenges. His pioneering work has received attention in journals like Angewandte Chemie and International Journal of Hydrogen Energy π. He’s driven by innovation, collaboration, and scientific impact π.
Publication Profile
Education & Experience
π Bachelor of Science β Liaoning Technical University (2019.09 ~ 2023.06)
π Master of Science (Ongoing) β Henan University (2023.09 ~ 2026.09)
π¬ Research Experience
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Hydrogen production via advanced catalysis β‘
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Photocatalytic degradation of persistent organic pollutants β’οΈ
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Peracetic acid activation and water purification π¦
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Multifunctional electrocatalyst design and optimization βοΈ
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Industrial wastewater treatment and recycling π
Suitability Summary
Xudong Hu is a highly deserving candidate for the Best Researcher Award π
, given his outstanding contributions to sustainable energy technologies and environmental remediation through advanced catalyst development and water treatment innovation π±βοΈ. As a dynamic young scientist from China π¨π³, currently pursuing his M.Sc. at Henan University and holding a B.Sc. from Liaoning Technical University, Xudong has already made a profound impact on the scientific community through first-author and co-first-author publications in high-impact journals such as Angewandte Chemie, International Journal of Hydrogen Energy, and Chemical Engineering Science ππ.
Professional DevelopmentΒ
Xudong Hu continuously strives to sharpen his research skills through interdisciplinary exploration and collaboration π€. He integrates theory-guided design π§ with experimental validation π¬, exploring diatomic site catalysts, heterostructures, and electron transport enhancement in environmental systems π. By publishing in globally recognized journals π and contributing as a corresponding author βοΈ, he demonstrates strong leadership and scientific communication skills. His focus on clean energy, sustainable development, and advanced catalysis keeps him aligned with global environmental goals π±π. Actively attending conferences, workshops, and forums keeps him updated with cutting-edge innovations in chemical and environmental engineering π§ͺπΌ.
Research FocusΒ
Xudong Huβs research primarily targets clean energy and environmental remediation πβ‘. His focus spans hydrogen production via seawater electrolysis, photocatalytic degradation of persistent pollutants, and electrocatalyst design for water treatment π§βοΈ. He is deeply engaged in atomic-level catalysis, heterostructure synergy, and peracetic acid activation to address pressing environmental issues through smart chemical solutions ππ§ͺ. By combining computational simulations with experimental validation π₯οΈπ¬, Xudong contributes novel insights to the field of green chemistry and sustainable energy technologies. His work reflects a multidisciplinary approach, merging materials science, chemistry, and environmental engineering to develop practical, scalable solutions β»οΈπ.
Awards & HonorsΒ
π First Author & Corresponding Author β Angewandte Chemie, 2025
π First Author β International Journal of Hydrogen Energy, 2024
π₯ Co-First Author β Chemical Engineering Science, 2025
π Recognition for Innovation in Environmental Catalysis
ποΈ Contributions to Advanced Electrocatalytic Systems for Water Purification
Publication Top Notes
1οΈβ£ “Theory-guided Design of Surface-Enhanced Ni-Mn Diatomic Site Catalysts for Efficient Seawater Electrolysis via the Degradation of High Ionization Potential Organic Pollutants” β Angewandte Chemie, π
2025 | ποΈ First & Corresponding Author | π Cited by: 1 | π DOI πβ‘π¬
2οΈβ£ “Atomic catalysis meets heterostructure synergy: Unveiling the trifunctional efficacy of transitionMetal@WS2/ReSe2” β International Journal of Hydrogen Energy, π
2024 | ποΈ First Author | π Cited by: 1 | π DOI βοΈπ‘π
3οΈβ£ “Fe-Enriched electron transport in CuFeS2 Catalyzed peracetic acid for efficient dipyrone Degradation: Computational and experimental Insights” β Chemical Engineering Science, π
2025 | ποΈ Co-First Author | π Cited by: 1 | π DOI π§ͺπ§ π§