陈子亮副教授硕士生导师
学历及学术经历:
2021年01月-至今:www.优德88.cpm 功能纳米与软物质研究院,副教授;
2023年06月-至今:亥姆霍兹柏林材料与能源研究中心,客座科学家;
2021年06月-2023年06月:柏林工大,洪堡研究学者;合作导师:Matthias Driess教授;
2019年11月-2020年12月:马里兰大学,访问学者;合作导师:王春生教授;
2018年06月-2021年01月:复旦大学,博士后;合作导师:吴仁兵教授;
2015年09月-2018年06月:复旦大学,博士;导师:孙大林教授;
2008年09月-2015年06月:安徽工业大学,本/硕;导师:张庆安教授。
科研项目经历:
主持过国家自然科学青年基金,江苏省自然科学青年基金,江苏省高等学校自然www.优德88.cpm 面上项目(A类),国家重点实验室开放基金,中国科学院重点实验室开放基金,姑苏领军人才和FUNSOM青教支持计划等科研项目;作为主要骨干,还参研过国家重大科学装置研制项目和国家自然科学基金面上项目。
www.优德88.cpm 方向:
聚焦材料科学和能源转化领域,一方面,通过运用原位谱学大科学装置,深入理解新型催化剂的理论原理和内涵,为其高性能设计提供科学依据;另一方面,将基础研究成果与实际应用导向紧密结合,采用特定的技术手段,以期在千克级新型电催化剂的自主研发方面取得突破。研究体系和思路主要集中于三方面:
一、开展以先进陶瓷为核心的氧化还原电催化转化及能源器件的功能化研究,包括过氧化氢电合成、甲酸电合成、有机物小分子的选择性氧化以及针对这些反应的宽域电流下的流动池优化与设计;
二、研制基于s-、p-、f-区元素与d-区金属杂化的新型金属间化合物和多组元金属基催化剂,并阐明它们在氢能全景式发展中的关键科学作用,涵盖氢的制取、存储和应用;
三、探索构建以高熵、金属小分子、功能碳点作为独特单元的耦合体系,通过一系列的工程化设计和组装,期望获得具有高效光/电转换能力和优异催化性能的新型复合材料。
学术荣誉:
1. 2022年,姑苏创新创业领军人才
2. 2022年,江苏省双创计划博士人才
3. 2021年,德国“洪堡学者”(终身荣誉)
4. 2020年,www.优德88.cpm “优秀青年学者”
5. 2018年,上海市“超级博士后”
6. 2015年,安徽省“创新之星”
学术组织参与情况:
中国材料研究学会高级会员、中国化学会会员等。
招生信息:
衷心邀请有志于从事学术研究的本科生报考,也期待有热情的博士生和博士后加入本人所在课题组(康振辉教授)。梦想是生命的火焰,努力是实现梦想的阶梯,挑战是成长的磨砺。如果你还有梦想、愿意努力、不惧挑战、尝试改变,或许,这份邮箱就是为你而留:zlchen@suda.edu.cn。期待你的加入,让我们携手并肩,用智慧和勇气,在这段学术旅途中书写属于我们的成长篇章。愿你微笑向暖,一路从容,勇敢追寻初心的足迹!
近五年代表性学术论文:
截至目前以第一作者和通讯作者在Prog. Mater. Sci., Adv. Mater., Energy Environ. Sci., Angew. Chem., Adv. Funct. Mater., Adv. Energy Mater., ACS Nano, Acc. Chem. Res.等材料、化学领域权威期刊发表学术论文近三十篇,H因子41,ESI高被引论文4篇,获授权发明专利3项。代表性论文如下:
Z. L. Chen*,S. Mebs, I. Mondal, H. Y. Yang, H. Dau, Z. H. Kang*, M. Haumann, S. Ghosh, W. Cen, M. Driess, P. W. Menezes*,Hydrogen-Induced Disproportionation of Samarium-Cobalt Intermetallics Enabling Promoted Hydrogen Evolution Reaction Activity and Durability in Alkaline Media,Advanced Functional Materials,2024, 2402699. (IF = 19.0)
H. Y. Yang, N. An, Z. H. Kang, P. W. Menezes*,Z. L. Chen*, Understanding Advanced Transition Metal-Based Two Electron Oxygen Reduction Electrocatalysts from the Perspective of Phase Engineering,Advanced Materials,2024, 2400140. (IF = 29.4)
Z. L. Chen*,H. Y. Yang, S. Mebs, H. Dau, M. Driess, Z. W. Wang, Z. H. Kang*, P. W. Menezes*, Reviving Oxygen Evolution Electrocatalysis of Bulk La-Ni IntermetallicsviaGaseous Hydrogen Engineering,Advanced Materials,2023, 35, 2208337. (IF = 29.4)
Z. L. Chen, H. Y. Yang, Z. H. Kang*, M. Driess*, P. W. Menezes*, The Pivotal Role ofs-,p-, andf-Block Metals in Water Electrolysis: Status Quo and Perspectives,Advanced Materials,2022, 34, 2108432. (IF = 29.4)
J. Wu, M. L. Hou,Z. L. Chen*, W. J. Hao, X. L. Pan, H. Y. Yang, W. L. Cen, Y. Liu*, H. Huang, P. W. Menezes*, Z. H. Kang*, Composition Engineering of Amorphous Nickel Boride Nanoarchitectures Enabling Highly Efficient Electrosynthesis of Hydrogen Peroxide,Advanced Materials,2022, 34, 2202995. (IF = 29.4)
H. Y. Yang, P. F. Guo, R. R. Wang,Z. L. Chen*, H. B. Xu, H. G. Pan, D. L. Sun, F. Fang*, R. B. Wu*, Sequential Phase Conversion-Induced Phosphides Heteronanorod Arrays for Superior Hydrogen Evolution Performance to Pt in Wide pH Media,Advanced Materials,2022, 34, 2107548. (IF = 29.4)
Z. L. Chen#, R. B. Wu#,*, Y. Liu, Y. Ha, Y. H. Guo, M. Liu, D. L. Sun*, F. Fang*. Ultrafine Co Nanoparticles Encapsulated in Carbon Nanotubes-Grafted Graphene Sheets as Advanced Electrocatalysts for Hydrogen Evolution Reaction,Advanced Materials,2018, 30, 1802011. (IF = 29.4)
Z. L. Chen#,J. Wu#, Z. R. Chen, H. Y. Yang, K. Zou, X. Y. Zhao, R. H. Liang*, X. L. Dong, P. W. Menezes*, Z. H. Kang*, Entropy Enhanced Perovskite Oxide Ceramic for Efficient Electrochemical Reduction of Oxygen to Hydrogen Peroxide,Angewandte Chemie International Edition,2022, 61, e202200086. (IF = 16.6)
H. Y. Yang#, J. Wu#, Z. R. Chen#, K. Zou, R. H. Liang, Z. H. Kang*, P. W. Menezes*,Z. L. Chen*, A Dynamic Piezoelectric Effect to Promote Electrosynthesis of Hydrogen Peroxide,Energy Environmental Science,2023, 16, 210. (IF = 32.5)
Z. L. Chen#, H. L. Qing#, R. R. Wang, R. B. Wu*, Charge Pumping Enabling Co–NC to Outperform Benchmark Pt Catalyst for pH-Universal Hydrogen Evolution Reaction,Energy Environmental Science,2021, 14, 310. (IF = 32.5)
Y. M. Wang, H. Huang, J. Wu, H. Y. Yang, Z. H. Kang*, Y. Liu, Z. W. Wang, P. W. Menezes*,Z. L. Chen*, Charge-Polarized Selenium Vacancy in Nickel Diselenide Enabling Efficient and Stable Electrocatalytic Conversion of Oxygen to Hydrogen Peroxide,Advanced Science,2023, 10, 2205347. (IF = 15.1)
K. Yu, H. Y. Yang, H. Zhang, H. Huang, Z. W. Wang, Z. H. Kang*, Y. Liu, P. W. Menezes*,Z. L. Chen*, Immobilization of Oxyanions on the Reconstructed Heterostructure Evolved from A Bimetallic Oxysulfide for the Promotion of Oxygen Evolution Reaction,Nano-Micro Letters,2023, 15, 186. (IF = 26.6)
Z. L. Chen, Y. Liu*, and Z. H. Kang*, Diversity and Tailorability of Photoelectrochemical Properties of Carbon Dots,Accounts of Chemical Research,2022, 55, 3110. (IF = 18.3)
Z. L. Chen#, H. L. Qing#, K. Zhou, D. L. Sun, R. B. Wu*. Metal–Organic Framework–Derived Nanocomposites for Electrocatalytic Hydrogen Evolution Reaction,Progress in Materials Science,2020, 108, 100618. (IF = 37.4)
W. J. Hao, D. X. Yao, Q. Y. Xu, R. R. Wang, C. L. Zhang, Y. H. Guo, R. M. Sun*, M. X. Huang*,Z. L. Chen*, Highly Efficient Overall-Water Splitting EnabledViaGrafting Boron-Inserted Fe-Ni Solid Solution Nanosheets onto Unconventional Skeleton,Applied Catalysis B: Environmental,2021, 292, 120188. (IF = 22.1)
Z. L. Chen#, H. B. Xu#, Y. Ha, X. Y. Li, M. Liu, R. B. Wu*,Two–dimensional Dual Carbon–Coupled Defective Nickel Quantum Dots Towards Highly Efficient Overall Water Splitting,Applied Catalysis B: Environmental,2019, 250, 213.(IF = 22.1)
Z. L. Chen#, M. Chen#, X. X. Yan, H. X. Jia, B. Fei, Y. Ha, H. L. Qing, H. Y. Yang, M. Liu, R. B. Wu*, Vacancy Occupation-Driven Polymorphic Transformation in Cobalt Ditelluride for Boosted Oxygen Evolution Reaction,ACS Nano,2020,14, 6968. (IF = 17.1)
Z. L. Chen, Y. Ha, H. X. Jia, X. X. Yan, M. Chen, M. Liu, R. B. Wu*,Oriented transformation of Co–LDH into 2D/3D ZIF–67 to achieve Co–N–C hybrids for efficient overall water splitting.Advanced Energy Materials,2019, 9, 1803918.(IF = 27.8)
责任编辑:杨娟