青岛科技大学纳米电催化课题组

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姜鲁华 教授
中科院百人

泰山学者特聘教授

德国洪堡学者

     能源短缺和环境污染是当今世界面临的两大难题,研究团队围绕洁净高效新型电能源技术,聚焦电能源相关的纳米材料和电催化应用基础研究。团队已发表SCI收录论文近200篇,申请发明专利80余件。纳米材料与电催化团队负责人姜鲁华教授连续多年入选Elsevier 能源领域/材料领域“中国高被引学者”和“全球前2%顶尖科学家”榜单。主持科技部、国家基金委、山东省科技厅等省部级以上项目20余项。研究成果曾获国家自然科学二等奖、辽宁省自然科学一等奖、国防技术发明二等奖、大连市技术发明一等奖、山东省自然科学学术创新奖等多个奖项。团队教师兼任 Chemical Engineering JournalNano Materials ScineceJournal of Electrochemistry 等多个期刊的编委/编辑。团队多名研究生获得国家奖学金和各类奖助学金以及研究生创新研究计划支持,培养的本科生多人获得大学生创新研究计划支持。

    欢迎有志于新能源和环境纳米电催化研究的青年人才和优秀学子加入团队!


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· 136. Heterostructure with Tightly-Bound Interface Between In2O3 Hollow Fiber and ZnIn2S4 Nanosheet toward Efficient Visible Light Driven Hydrogen Evolution, Appl. Catal. B, 2024,345,123697 2023/11/30 
· 135.Optimized W-d Band Configuration in Porous Sodium Tungsten Bronze Octahedron Enabling Pt-Like and Wide-pH Hydrogen Evolution, Nano Energy, 2024, 123, 109442. 2023/10/25 
· 134.Advances in Cu2O-Based Photocathodes for Photoelectrochemical Water Splitting, Acta Phys. -Chim. Sin., 2024,40(2) 2304035. 2023/10/20 
· 133. A cascade of in situ conversion of bicarbonate to CO2 and CO2 electroreduction in a flow cell with a Ni-N-S catalyst, J Energy Chem, 2024,88,183-193. 2023/08/03 
· 132.Co3Fe7/CoCx nanoparticles encapsulated in nitrogen-doped carbon nanotubes synergistically boost oxygen reduction reaction for Zn-air batteries, J. Colloid Interface Sci, 2024, 655, 427-438. 2023/07/29 

· 131.Ni-Fe-P/Fe-Si electrocatalysts on iron sheets: regulating surface structure to amorphous heterojunction for excellent oxygen evolution reaction, Int. J. Hydrogen Energy, 2024, 49(C), 580-590 2023/07/05 
· 2024↑↑↑ 2023/07/01 
· 130. A Unique Sandwich-structured Ru-TiO/TiO2@NC as an Efficient Bi-functional Catalyst for Hydrogen Oxidation and Hydrogen Evolution Reactions, Chem Eng J, 2023,145009. 2023/04/29 
· 129. Tuning C1/C2 Selectivity of CO2 Electrochemical Reduction over in-Situ Evolved CuO/SnO2 Heterostructure, Angew. Chem.Int. Ed.,2023, 62(40), e202306456 2023/04/29 
· 128. Functionalized black liquor-derived porous carbon as an efficient electrocatalyst for hydrogen peroxide production, J. Alloy Comp., 2023,963,171264. 2023/04/20 

· 127.WO3/Cd0.5Zn0.5S heterojunction for highly efficient visible-light photocatalytic H2 evolution, J. Phys. Chem. Solid, 2023, 178, 111351 2023/04/15 
· 126. Unique Ru nanoclusters confined in carbon molecular sieve coatings with tailoring sub- 4 Å ultramicropores as a highly efficient and CO-tolerant hydrogen oxidation electrocatalyst, Chem Eng J., 2023, 468, 143438. 2023/03/15 
· 125. Facile electrodeposition synthesis and super performance of nano-porous Ni-Fe-Cu-Co-W high entropy alloy electrocatalyst, Surface & Coatings Technology, 2023, 459, 129407 2023/03/10 
· 124. Electrochemically induced dilute gold-in-nickel nanoalloy as a highly robust electrocatalyst for alkaline hydrogen oxidation reaction, Chem Eng J, 2023, 464, 142692. 2022/12/19 
· 123. One stone three birds: an aqueous Mg–CO2 battery for generation of electricity, syngas and high–value phosphate, ACS Sus Chem Eng, 2023,11,3123-3132 2022/12/14 

· 122. Electronic structure modulation of MoO2 via Er-doping for efficient overall water/seawater splitting and Mg/seawater batteries, Applied Surface Science, 2023, 615, 156360. 2022/11/30 
· 121. Steering Pt/C to Highly Active CO-Tolerant Hydrogen Oxidation Reaction Catalyst in Alkaline Media via N-Doped Carbon Layer Confinement, Applied Surface Science,2023, 614,156131. 2022/10/25 
· 120. Photo-Assisted Seawater-Electrolyte Mg/H2O Batteries for Simultaneous Generation of Electricity and Hydrogen, Chem Eng J., 2023,455,140875. 2022/10/19 
· 119. Engineering of Unique Ni-Ru Nano-Twins for Highly Active and Robust Bifunctional Hydrogen Oxidation and Hydrogen Evolution Electrocatalysis, Chem Eng J., 2023, 454, 139959 2022/10/14 
· 118.Recent advances in electrocatalysts for seawater splitting, Nano Mater Sci, 2023,5,101-116 2022/10/14 
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