皇家永利

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副教授

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谢佳乐

发布日期:2023年05月05日    作者:    审核:    浏览:[]

姓名

谢佳乐

职称

副研究员/硕导

学科专业

新能源科学与工程

所属部门

新能源科学与工程教研室

研究中心

光伏新能源现代产业学院

联系方式

jialexie@swpu.edu.cn;jialexie@163.com

个人简历

谢佳乐博士,副研究员,硕士生导师,天府峨眉计划入选者。2005-2014年本硕博毕业于西南大学,师从李长明教授(欧洲科学院院士、俄罗斯工程院外籍院士、美国医学与生物工程院院士);2015-2017年在西南大学从事博士后研究工作;2017-2018年在苏州科技大学从事专职研究员工作;曾于2012年和2017年赴新加坡南洋理工大学和德国伊尔梅瑙工业大学交流访问。在包括Energy & Environmental Science, Nano Energy, Journal of Materials Chemistry A, Applied Physics Letters, ACS Sustainable Chemistry & Engineering, Journal of Power Sources等在内的专业期刊上发表SCI收录论文50余篇,其中第一作者/通讯作者论文28篇(累计影响因子>180),ESI高被引论文1篇,引用2100余次,H因子24,i10因子39(来源于Google scholar)。参与编著英文专著4部。授权中国发明专利8项;授权美国发明专利1项。主持国家自然科学基金、中国博士后科学基金、皇家永利科技计划项目和中央高校基本科研业务费等项目8项。主要讲授《太阳电池技术(双语)》、《氢能开发与利用》和《薄膜技术》等本科生课程。

主要研究领域

● 光电催化制氢

● 低维半导体纳米材料

● 光伏制氢器件

主要科研项目

1. 西南石油大学“揭榜挂帅”项目“光伏制氢材料、组件及系统集成研究”(30万元),2021-2024年,主研;

2. 西南石油大学校级青年科研创新团队“光伏制氢材料和集成器件研究”(20万元),2020-2022年,主研;

3. 皇家永利科技计划项目“石墨炔基二维纳米材料和水伏器件制备及水伏效应机理研究”(10万元),2020-2021年,主持;

4. 国家自然科学基金项目“超薄二维纳米材料修饰赤铁矿光阳极及光解水性能和表界面研究”(26万元),2018-2020年,主持;

5. 中国博士后科学基金“铁电性高效催化剂及铁电效应影响研究”(5万元),2015-2017年,主持;

6. 中央高校基本科研业务费“高效铁电性BiFeO3共催化剂的制备及光解水性能研究”(5万元),2015-2017年,主持。

代表性成果

1、 科研论文

ORCID0000-0002-9967-4966

(1)Xie, J.*; Wang, L.; Zhong, C.; Ren, J.; Lu, X.; Yang, S.; Huang, C.; Yang, P. Local charge distribution manipulation by oxyhydroxide heterojunction toward urea photoelectrolysis.Materials Today Energy2023, 31, 101212.

(2)Xie, J.*; Wang, L.; Ren, J.; Lu, X.; Wang, S.; Yang, P. Oxidation State Modulation of CoMOF with Zn for Accelerating Photoelectrochemical Water Oxidation of Borate-Irradiation Treated BiVO4.Electrochimica Acta2022, 421, 140483.

(3)Xie, J.*; Yang, P.; Wang, L.; Ren, J.; Lu, X.; Zhong, C. Transparently Passivating Catalyst of Hydrated Manganese Phosphate for Photoelectrochemical O2 Generation.ACS Applied Energy Materials2021, 4, 12, 14746-14754.

(4)Wang, L.; Wu, F.; Chen, X.; Ren, J.; Lu, X.; Yang, P.; Xie, J.* Defective Metal Organic Framework Assisted with Nitrogen Doping Enhances the Photoelectrochemical Performance of BiVO4. ACS Applied Energy Materials2021, 4, 11, 13199-13207.

(5)Xie, J.*; Yang, P.; Tang, C.; Chen, T.; Zhong, C.; Wang, L.; Huang, Y. High-Quality Coating of Conformal and Oriented Metal–Organic Framework Cocatalyst Layer for Efficient Photoelectrocatalysis.Advanced Materials Interfaces2021,8, 2101069.

(6)Wu, F.; Xie, J.*; You, Y.; Zhao, Z.; Wang, L.; Chen, X.; Yang, P.; Huang, Y. Cobalt Metal–Organic Framework Ultrathin Cocatalyst Overlayer for Improved Photoelectrochemical Activity of Ti-Doped Hematite.ACS Applied Energy Materials2020,3(5), 4867-4876.

(7)Gong, L.?; Xie, J.?; Liang, X.; Xiong, J.; Yi, S.; Zhang, X.; Li, C. M.* Tailoring surface states by sequential doping of Ti and Mg for kinetically enhanced hematite photoanode.Journal of Colloid and Interface Science2019, 542, 441-450.

(8)Xiong, J.?; Xie, J.?; Yang, P.; Liang, X.; Li, C. M.* Significantly improve photoelectrochemical performance of Ti:Fe2O3with CdSe modification and surface oxidation.International Journal of Hydrogen Energy2018,43(31), 14130-14139.

(9)Xie, J.; Yang, P.; Wang, Y.; Qi, T.; Lei, Y.; Li, C. M.* Puzzles and confusions in supercapacitor and battery: Theory and solutions.Journal of Power Sources 2018,401, 213-223.

(10)Xie, J.*; Yang, P.; Liang, X.; Xiong, J. Self-Improvement of Ti:Fe2O3 Photoanodes: Photoelectrocatalysis Improvement after Long-Term Stability Testing in Alkaline Electrolyte.ACS Applied Energy Materials2018, 1(6), 2769-2775.

(11)Xie, J.; Yang, P.; Guo, C.; Zhong, C.; Wang, X.; Li, C. M.* Hydrothermally Treating High-Ti Cinder for a Near Full-Sunlight-Driven Photocatalyst toward Highly Efficient H2Evolution.ACS Sustainable Chemistry & Engineering2018,6(4), 5076-5084.

(12)Liang, X.?; Xie, J.?; Xiong, J.; Gong, L.; Li, C. M.* FeCoW multimetal oxide-coated W:BiVO4photoanode for efficient oxygen evolution.Sustainable Energy & Fuels2018,2(9), 2053-2059.

(13)Xie, J.; Guo, C.; Yang, P.; Wang, X.; Liu, D.; Li, C. M.* Bi-functional ferroelectric BiFeO3passivated BiVO4photoanode for efficient and stable solar water oxidation.Nano Energy2017,31, 28-36.

(14)Xie, J.; Chen, J.; Li, C. M.* Self-assembling reduced graphene quantum dots on hematite photoanode for passivating surface states toward significantly improved water splitting.International Journal of Hydrogen Energy2017, 42(10), 7158-7165.

(15)Wang, X.?; Xie, J.?; Li, C. M.* Architecting smart “umbrella” Bi2S3/rGO-modified TiO2nanorod array structures at the nanoscale for efficient photoelectrocatalysis under visible light.Journal of Materials Chemistry A2015,3(3), 1235-1242.

2、 专利发明

(1)谢佳乐,杨萍萍,黄跃龙,一种金属有机框架材料涂层在纳米结构基体表面的制备方法,中国发明专利,专利号:ZL202011040411.5。

(2)谢佳乐,杨萍萍,于华,黄跃龙,一种钒钛工业废渣制备光触媒纳米材料的方法及产品,中国发明专利,专利号:ZL201811436256.1。

(3)谢佳乐,杨萍萍,李长明,铁酸铋修饰钒酸铋的光阳极和制备方法及其在光解水制氢的应用,中国发明专利,专利号:ZL201610147768.0。

3、 学术专著

(1) Cui, C.?; Xie, J.?; Lin, D.; Zhang, J.; Chen, X.; Guo, C.; Xu, J.* Chapter 8 - Recent progress in carbon-based materials as catalysts for electrochemical and photocatalytic water splitting. InCarbon Based Nanomaterials for Advanced Thermal and Electrochemical Energy Storage and Conversion; Paul, R.; Etacheri, V.; Wang, Y.; Lin, C.-T., Eds.; Elsevier: 2019; pp 173-200.

(2) Xie, J.*; Wang, L.; Chen, X.; Yang, P.; Wu, F.; Huang, Y. Chapter 3 - The Emerging of Hydrovoltaic Materials as a Future Technology: A Case Study for China. InGreen Energy and Environment; Yap, E. H.; Tan, H. P., Eds.; IntechOpen: 2019; DOI: 10.5772/intechopen.90377.

(3) Xie, J.*; Yang, P.; Wu, F.; Wang, L.; Ren, j.; Lu, X. Chapter 5 - Metal-Organic Frameworks for Efficient Photoelectrocatalysis: Interface and Mechanism. InMetal-Organic Frameworks (MOFs): Chemistry, Applications and Performance; Thorben van den Burg, Eds.; Nova: 2021; pp 131-156.

(4) Zou, L.; Xie, J.*; Lu, X.; Ren, J.; Wang, S.; Huang, J.; Yang, P. Chapter 8 - Strategies for Designing More Efficient Hematite Photoanodes towards Water Oxidation Reactions. InAdvances in Materials Science Research; Maryann C. Wythers, Eds.; Nova: 2022; NA.

获奖与荣誉

2021年获“天府峨眉计划”青年领军人才。

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