研究领域
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主要从事能源电催化材料及其器件的研究,研究内容包括::
(i) 基于遗态思想的构型化电极的设计;
(ii) 新型电催化材料的设计开发及其电催化机理研究(OER,CRR等);
(iii) 能源转化器件的开发(PEM/AEM等)。
论文成果 MORE+
- · Boosting Oxygen Electrocatalysis by Combining Iron Nanoparticles with Single Atoms.Catalysts.2022
- · MoS_(2)/Mxene复合材料的制备及其中性析氧电催化性能.微纳电子技术.2021
- · Bioinspired Porous Anodic Alumina/Aluminum Flake Powder for Multiband Compatible Low Detectability.ACS APPLIED MATERIALS & INTERFACES.2022
- · Mechanically alloyed NiTiO3/transition metal heterostructures: introducing oxygen vacancies for exceptionally enhanced hydrogen evolution reaction activity.JOURNAL OF MATERIALS CHEMISTRY A.2020
- · Phosphorus-doping promotes the electrochemical etching of metals to nanoporous electrodes for efficient and durable overall water splitting.JOURNAL OF POWER SOURCES.2022
- · Identifying the geometric catalytic active sites of crystalline cobalt oxyhydroxides for oxygen evolution reaction.Nature Communications.2022
- · Silver decorated hydroxides electrocatalysts for efficient oxygen evolution reaction.CHEMICAL ENGINEERING JOURNAL.2022
- · Co^(2+)掺杂提升镍铁氢氧化物的析氧电催化稳定性.微纳电子技术.2022
- · Synergistic Hybrid Electrocatalysts of Platinum Alloy and Single-Atom Platinum for an Efficient and Durable Oxygen Reduction Reaction.ACS Nano.2022
- · Boosting Oxygen Electrocatalysis by Combining Iron Nanoparticles with Single Atoms.Catalysts.2022
专利
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著作成果
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科研项目 MORE+
- · 芯片微纳电极助力解析FeOOH@NiCoOOH动态界面协同析氧电催化机理-2028/12/01
- · 碱性电解水析氧电催化剂开发-2025/10/01
- · 介孔结构紧密堆积的金属氢氧化物的溶致液晶模板法制备和析氧电催化研究-2026/03/01
- · 2021年国家青年千人计划-2024/12/01
- · 2019 年国家青年千人计划-2022/03/01
- · 碱水电解池阳极改性技术开发-2022/12/01
- · 仿生金属微纳结构助力析氧电催化原位拉曼分析的研究-2022/12/01
- · 2018国家“千人计划”青年-2023/03/01
- · 仿生复合材料战略研究-2021/05/01
- · 仿生金属微纳结构助力析氧电催化原位拉曼分析的研究, 国家自然科学基金项目, 2020/01/01