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杨骥
发布时间:2014-09-10   访问次数:10975

杨骥,教授

 

研究方向:

工业废气污染催化控制

电化学催化降解污染物

email:yangji@ecust.edu.cn

 

学历:

1992/09-1996/07,学士,上海交通大学,应用化学系,应用化学专业

1996/09-1998/10,硕士,上海交通大学,应用化学系,环境化工专业

1998/11-2001/04,博士,Michigan Technological University,环境工程专业

 

主要经历:

2001.04-2003.06,博士后,Institute of Paper Science and Technology

2003.07-2004.02Research ScientistGeorgia Institute of Technology

2004.02-2009.10,副教授,上海交通大学,环境科学与工程学院

2009.10-至今,教授,44118太阳成城集团,44118太阳成城集团

 

教学情况:

研究生课程:
(1) 大气污染控制原理与技术(全英文)

(2) 工业废气污染控制技术

(3) 污染控制化学专论

本科生课程:
(1) 大气污染控制工程(全英文)

 

各类荣誉及获奖:

2006年获得教育部新世纪优秀人才计划资助

2013年获得上海市曙光学者计划资助

 

承担课题:

  • 国家自然科学基金面上项目,51778229、高效储氧-释氧变价态复合催化有机物降解电极研究、2018.01-2021.1260万元,在研,主持

  • 国家自然科学基金面上项目,21277045、基于太阳能光伏电解的资源化再生脱硫碱渣研究、2013/01-2016/1280万元,完成,主持

  • 国家自然科学基金面上项目,21177037、非晶态介孔二氧化铱膜电极的极化调控机制、2012/01-2015/1262万元,完成,主持

  • 国家自然科学基金面上项目,20777050分体式强扩散PRB降解有机卤化物(HOCs)研究2008/01-2010/1228万元、完成、主持

  • 国家自然科学基金青年基金,20507014、挥发性有机物高效固态萃取-双极电催化氧化降解过程优化及调控机制、2006/01-2008/1226万元、完成、主持

 

代表性论文、论著及专利等:

  • Lattice Contracted Cobalt disulfide as an Outstanding Oxygen Reduction Reaction via Efficient Self-assembly Arrangement. ChemSusChem. 2021-Jan-06

  • Regulating the Coordination of Co sites in Co3O4/MnO2 Compounding for Facilitated Oxygen Reduction Reaction. ChemSusChem. 13(24): 6613-6620, 2020

  • Lanthanides Regulated the Amorphization-Crystallization of IrO2 for Outstanding OER Performance. ACS Applied Materials & Interfaces. 12(31): 34980-34989, 2020

  • An Amorphous Lanthanum-iridium Solid Solution with An Open Structure for Efficient Water Splitting. Journal of Materials Chemistry A. 8(25): 12518-1252, 2020

  • Assembly of a Highly Active Iridium-Based Oxide Oxygen Evolution Reaction Catalyst by Using Metal-Organic Framework Self-Dissolution. ACS Applied Energy Materials. 12(26): 29414-29423, 2020

  • Cerium Surface-Engineered Iridium Oxides for Enhanced Oxygen Evolution Reaction Activity and Stability. ACS Applied Energy Materials. 3(5):4432-4440, 2020

  • Ni-Co Codoped RuO2 with Outstanding Oxygen Evolution Reaction Performance. ACS Applied Energy Materials. 2(6):4105-4110, 2019

  • A Promising Engineering Strategy for Water Electro-oxidation Iridate Catalysts via Coordination Distortion. Chemical Communications. 55(41):5801-5804, 2019

  • Iridium Substitution in Nickel Cobaltite Renders High Mass Specific OER Activity and Durability in Acidic Media. Applied Catalysis B, Environmental. 244(5):295-302, 2019

  • Cultivating Crystal Lattice Distortion in IrO2 via Coupling with MnO2 to Boost the Oxygen Evolution Reaction with High Intrinsic Activity. Chemical Communications. 54(39):4959-4962, 2018

  • Anchoring of IrO2 on One-Dimensional Co3O4 Nanorods for Robust Electrocatalytic Water Splitting in an Acidic Environment. ACS Applied Energy Materials. 1(11):6374-6380, 2018

  • Effect of Lattice Strain on the Electro-catalytic Activity of IrO2 for Water Splitting. Chemical Communications. 54(8):996-999, 2018

  • Strategies of Alloying Effect for Regulating Pt-based H2-SCR Catalytic Activity. Chemical Communications. 54(68):9502-9505, 2018

  • Ni-Co Codoping Breaks the Limitation of Single-Metal-Doped IrO2 with Higher Oxygen Evolution Reaction Performance and Less Iridium. ACS Energy Letters. 2(12):2786-2793, 2017

  • Rational Manipulation of IrO2 Lattice Strain on alpha-MnO2 Nanorods as a Highly Efficient Water-Splitting Catalyst. ACS Applied Materials & Interfaces. 9(48):41855-41862, 2017

  • Hollandite Structure Kx approximate to 0.25 IrO2 Catalyst with Highly Efficient Oxygen Evolution Reaction. ACS Applied Materials & Interfaces. 8(1):820-826, 2016

  • Conversion of Inert Cryptomelane-type Manganese Oxide into a Highly Efficient Oxygen Evolution Catalyst via Limited Ir Doping. Journal of Materials Chemistry A. 4(32):12561-12570, 2016

  • An Efficiently Tuned d-orbital Occupation of IrO2 by Doping with Cu for Enhancing the Oxygen Evolution Reaction Activity. Chemical Science. 6(8):4993-4999, 2015

  • Circulating Regeneration and Resource Recovery of Flue Gas Desulfurization Residuals Using a Membrane Electroreactor: From Lab Concept to Commercial Scale. Environmental Science & Technology, 46(20): 11273-11279,2012

  • Development and Field-scale Optimization of a Honeycomb Zeolite Rotor Concentrator/Recuperative Oxidizer for the Abatement of Volatile Organic Carbons from Semi-conductor Industry. Environmental Science & Technology.46:441-446, 2012

  • Improvement of Electrochemical Wastewater Treatment through Mass Transfer in Seepage Carbon Nano-tube Electrode (SCNE) Reactor. Environmental Science & Technology. 433796–38022009

  • Dual Electrodes Oxidation of Dye Wastewater with Gas Diffusion Cathode. Environmental Science & Technology. 39:1819-1826, 2005

  • Treatment of Cooking Oil Fume by Low Temperature Catalysis. Applied Catalysis B, Environmental. 58 (1-2): 123-131 2005

  • Application of an Isothermal, Three-Phase Catalytic Reactor Model to Predict Unsteady-State Fixed-Bed Performance. Environmental Science & Technology. 37:428-436, 2003


网页发布时间: 2014-09-10