姓名:庄林洲
职务:副教授 硕士生导师
电话:13402016486
电子邮件:lzzhuang@ecust.edu.cn
教育背景:
2015.10-2019.04 澳洲昆士兰大学 化学工程专业 博士
2012.09-2014.06 中山大学 高分子化学与物理专业 硕士
2008.09-2012.06 中山大学 应用化学专业 学士
工作经历:
2023.01-至今 新葡的京集团4321 副教授
2020.01-2022.12 新葡的京集团4321 特聘副研究员
2019.04-2019.12 澳洲昆士兰大学新葡的京集团4321 助理研究员
2014.06-2015.09 广东省出入境检验检疫局食品安全室 助理研究员
科研项目:
国家重点研发计划子课题 在研 主持
上海市海外高层次人才引进计划 在研 主持
国家自然科学基金青年基金 在研 主持
新葡的京集团4321创新人才项目 在研 主持
研究方向:
主要从事新型催化与膜材料的开发与制备,用于高效全水电解制氢。包括:
1.开发高效自支撑产氧产氢多孔电极,构建电解水膜电极组件;
2.研究抗氯抗结垢高效海水电解催化剂,发展利用海水资源制氢技术;
3.焦耳热瞬时超高温技术用于开发廉价高性能的非贵金属催化剂;
4.开展石墨烯膜及MXene膜在全水电解器件中的应用研究。
代表性著作:
2016年至今,以第一作者或共同通讯作者身份发表SCI论文20余篇,其中包括Wiley杂志社旗舰材料期刊Advanced Materials(2篇)、Angewandte Chemie(3篇)、Advanced Functional Materials(1篇)和Advanced Science(2篇)等。
[1] Weng, Y.#; Wang, K.#; Li, S.; Wang, Y.; Lei, L.; Zhuang, L.*; Xu, Z.* High-valence-manganese driven strong anchoring of iridium species for robust acidic water oxidation. Adv. Sci. 2023, 2205920.
[2] Zhuang, L. #; Li, Z. #; Li, M. *, Tao, H.; Mao, X.; Lian, C.; Ge, L.; Du, A.; Xu, Z. *; Shao, Z.*; Zhu, Z.*, A new operando surface restructuring pathway via ion-pairing of catalyst and electrolyte for water oxidation. Chem. Eng. J. 2023, 454, 140071.
[3] Li, J.; Xu, F.; Wang, K.; He, J.; Wang, Y.; Lei, L.; Zhu, M.; Zhuang, L.*; Xu, Z.* Anion-tuning of cobalt-based chalcogenides for efficient oxygen evolution in weakly alkaline seawater. Chem. Eng. Sci.2023, 267, 118366.
[4] Zhuang, L.; Li, J.; Wang, K.; Li, Z.; Zhu, M.; Xu, Z.* Structural buffer engineering on metal oxide for long-term stable seawater splitting. Adv. Funct. Mater., 2022, 2201127.
[5] Li, J.; Yu, T.; Wang, K.; Li, Z.; He, J.; Wang, Y.; Lei, L.; Zhuang, L.*; Zhu, M.; Lian, C.; Shao, Z.*; Xu. Z.* Multi-scale engineering of nonprecious metal electrocatalyst for realizing ultra-stable seawater splitting in weakly alkaline solution. Adv. Sci., 2022, 2202387.
[6] Wang, K.; Tao, H.; Liang, C.; Li, S.; Wu, Y.; Wang, Y.; Zhuang, L.*; Lian, C.*; Liu, H.; Xu, Z.* Regulating multiscale structures of nickel-iron-based electrocatalysts for efficient water oxidation. Cell Rep. Phys. Sci. 2022, 3, 100870.
[7] Zhuang, L.; Xu, F.; Wang, K.; Li, J.; Liang, C.; Zhou, W.; Xu, Z.; Shao, Z.; Zhu, Z.* Porous structure engineering of iridium oxide nanoclusters on atomic scale for efficient pH-universal overall water splitting. Small2021, 17, 2100121.
[8] Zhuang, L.; Jia, Y.; Liu, H.; Li, Z.; Li, M.; Zhang, L.; Yang, D.; Zhu, Z.*; Yao, X.*Sulfur-modified oxygen vacancies in iron-cobalt oxide nanosheets: enabling extremely high activity of the OER to achieve the industrial water splitting benchmark.Angew. Chem. Int. Ed. 2020, 59, 14664-14670.
[9] Zhuang, L.; Ge, L.; Liu, H.; Jiang, Z.; Jia, Y.; Li, Z.; Yang, D.; Hocking, R. K.; Li, M.; Zhang, L.; Wang, X.; Yao, X.*; Zhu, Z.*A surfactant-free and scalable general strategy for synthesizing ultrathin two-dimensional metal-organic framework nanosheets for the oxygen evolution reaction. Angew. Chem. Int. Ed. 2019,58, 13565-13572.
[10] Zhuang, L.; Jia, Y.; Liu, H.; Wang, X.; Hocking, R. K.; Liu, H.; Chen, J.; Ge, L.; Zhang, L.; Li, M.; Dong, C. L.; Huang, Y. C.; Shen, S.; Yang, D.; Zhu, Z.*; Yao, X.* Defect-induced Pt-Co-Se coordinated sites with highly asymmetrical electronic distribution for boosting oxygen-involving electrocatalysis. Adv. Mater.2019, 31, 1805581.
[11] Zhuang, L.; Ge, L.; Yang, Y.; Li, M.; Jia, Y.; Yao, X.*; Zhu, Z.* Ultrathin iron-cobalt oxide nanosheets with abundant oxygen vacancies for the oxygen evolution reaction. Adv. Mater.2017, 29, 1606793.
[12] Zhuang, L.; Jia, Y.; He, T.; Du, A.; Yan, X.; Ge, L.; Zhu, Z.*; Yao, X.* Tuning oxygen vacancies in two-dimensional iron-cobalt oxide nanosheets through hydrogenation for enhanced oxygen evolution activity. Nano Res. 2018, 11, 3509-3518.
[13] Wang, X.; Zhuang, L.; Jia, Y.; Liu, H.; Yan, X.; Zhang, L.; Yang, D.; Zhu, Z.*; Yao, X.* Plasma-triggered synergy of exfoliation, phase transformation and surface engineering in cobalt diselenide for enhanced water oxidation. Angew. Chem. Int. Ed. 2018,57, 16421-16425. (共一作)