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    康振烨
  • 职  称:研究员
    导  师:博导
    研究方向: 1.质子交换膜(海)水电解技术2.电催化3.微尺度多相流及传热4.先进微纳米机电系统及多功能材料5.3D打印技术在能源领域的应用
    联系方式:zkang@hainanu.edu.cn



研究方向:

1.质子交换膜(海)水电解技术2.电催化3.微尺度多相流及传热4.先进微纳米机电系统及多功能材料5.3D打印技术在能源领域的应用

详见:http://www.tianxinlong-lab.com/?m=home&c=Lists&a=index&tid=15



学术兼职:

担任Advanced Powder Materials期刊青工委,Rare Metals 和《石油化工高等学校学报》期刊青年编委,Materials 和 Molecules特刊编辑;长期担任Nature Communications, Advanced Materials, Journal of Materials Chemistry A,Applied Energy,Journal of Power Sources,Electrochimica Acta等期刊审稿人。



学术成就:

2018年5月于美国田纳西大学(UTK)获得博士学位;2018年7月-2021年3月在美国能源部(DOE)可再生能源国家实验室(NREL)从事博士后研究工作;2021年4月加入永利集团化学工程与技术学院,加入“海洋清洁能源创新团队”。海南省自由贸易港“D类人才”,海南省“巨东英院士工作站”学术委员;在Energy & Environmental Science, Nano Energy, Science Advances, Applied Energy, Carbon Energy等国内外学术期刊上发表SCI论文50余篇,谷歌学术引用2500余次,h指数28。



科研项目:

[1] 美国能源部(DOE),可再生能源国家实验室(NREL)专利市场化加速专项课题,Patterned Electrode for Water Electrolysis,2020.06-2021.03,$1.7万(美金),主持,已结题。

[2] 永利集团,高层次人才科研启动基金,新型高效水解制氢膜电极组件的研发及其理论研究,2021-2026,¥80万元,主持,在研。

[3] 国家自然科学基金委员会,青年科学基金项目,质子交换膜水电解池内新型超薄多功能高效电极的研发及相关基础研究,2210090504,2022.1-2024.12,¥30万元,主持,在研。

[4] 海南省科学技术厅,海南省重点研发计划项目,ZDYF2021GXJS207,新型水解制氢高效膜电极组件的研发及其基础研究,2022/01-2023/12,¥330.0万元,在研,主持。

[5] 海南省科学技术厅,海南省自然科学基金高层次人才项目,222RC554,高效电解水制氢电极的研发及其基础研究,2022/01-2024-12,¥10.0万元,在研,主持。

[6] 永利集团,自然科学类青年教师科研培育项目,2021.07-2021.12,¥3万元,主持,已结题。

[7] 美国能源部,国家能源技术实验室基金,2015.05-2018.05,$60万美金,已结题。(排名第二)

[8] 横向课题,HD-KYH-2023,PEM电解水核心零部件联合研发项目,2023/08-2027/08,¥30.0万元,在研,主持。



论著专利:

[1] Zhenye Kang, Jingke Mo, Gaoqiang Yang, Scott T. Retterer, David A. Cullen, Todd J. Toops, Johney B. Green Jr, Matthew M. Mench, and Feng-Yuan Zhang*. Investigation of thin/well-tunable liquid/gas diffusion layers exhibiting superior multifunctional performance in low-temperature electrolytic water splitting. Energy & Environmental Science, 2017. 10(1), 166-175.

[2] Zhenye Kang, Gaoqiang Yang, Jingke Mo, Yifan Li, Shule Yu, David A. Cullen, Scott T. Retterer, Todd J. Toops, Guido Bender, Bryan S. Pivovar, Johney B. Green and Feng-Yuan Zhang*, Novel Thin/Tunable Gas Diffusion Electrodes with Ultra-Low Catalyst Loading for Hydrogen Evolution Reactions in Proton Exchange Membrane Electrolyzer Cells, Nano Energy, 2018. 47, 434-441.

[3] Zhenye Kang, Shaun M. Alia, Marcelo Carmo and Guido Bender*. In-situ and in-operando analysis of voltage losses using sense wires for proton exchange membrane water electrolyzers. Journal of Power Sources, 2021. 481, 229012.

[4] Zhenye Kang*, Yingying Chen, Hao Wang, Shaun M. Alia, Bryan S. Pivovar, and Guido Bender*. Discovering and Demonstrating a Novel High-Performing 2D-Patterned Electrode for Proton-Exchange Membrne Water Electrolysis Devices. ACS Applied Materials & Interfaces, 2022. 14(1), 2335-2342.

[5] Zhenye Kang*, Hao Wang, Yanrong Liu, Jingke Mo, Min Wang, Jing Li, Xinglong Tian*. Exploring and understanding the internal voltage losses through catalyst layers in proton exchange membrane water electrolysis devices. Applied Energy, 2022. 317, 119213.

[6] Suyang Feng, Peng Rao, Xiao Wu, Ke Li*, Anyuan Qi, Yanhui Yu, Jing Li*, Peilin Deng, Yuliang Yuan, Shaolei Wang*, Xinlong Tian*, Zhenye Kang*. In-situ Generation of Hydroxyl Layers in CoO@FeSe2 Catalyst for High Selectivity Seawater Electrolysis. Chinese Journal of Chemistry, 2023. 41, 202300441.

[7] Xiaohong Gao, Jieli Chen, Yanhui Yu, Fangyuan Wang, Xiao Wu, Xingbo Wang, Weihua Mao, Jing Li, Wei Huang, Qi Chen, Ruisong Li, Chenghang You*, Shaolei Wang*, Xinlong Tian*, Zhenye Kang*. Core-shell structured NiTe@FeOOH nanoarrays for efficient overall seawater splitting. Chemical Engineering Journal, 2023. 474, 145568.

[8] Yunlong He, Zhenye Kang*, Jing Li, Yawei Li*, Xinlong Tian*. Recent progress of manganese dioxide based electrocatalysts for oxygen evolution reaction. Industrial Chemistry & Materials, 2023. 1, 312-331.

授权专利:能量转换装置的性能损失测定方法及装置(2023-2-28,中国,ZL202111542001.5);一种用于常压电解水器件结构(2023-07-11,中国,ZL202223583583.4);一种高通量分域式电解水器件(2023-09-05,中国,ZL202320578378.4)



合作交流:

[1] 质子交换膜电解水阳极钛基多孔层研究和产业化进展. 2023全球绿氢产业大会 (2023 Global Green Hydrogen Industry Conference), Shanghai Jiading, August 22-23, 2023.

[2] 绿氢经济专场圆桌讨论嘉宾,英美资源集团应用创新与合作论坛-铂族金属学术研讨与成果展示会,Shanghai Lingang, China, June 26, 2023.

[3] Developing High-efficient Membrane Electrode Assembly for Hydrogen Production from PEM Water Electrolysis Cell. The 11th World Congress of Chemical Engineering (WCCE11) (第十一届世界化学工程大会), Joint Event-Energy Storage Program. Buenos Aires, Argentina, June 4-8, 2023.

[4] 健康生活从氢出发, 2023世界海洋日科普活动, 中国三沙(永兴岛、赵述岛), June 1-6, 2023

[5] Establishing a Novel Thin Membrane Electrode Assembly Structure in Proton Exchange Membrane Water Electrolysis Cell. 243th ECS Meeting. Sheraton Boston, Boston, MA, USA, May 28–June 2, 2023.

[6] (Invited) A novel electrode design with high iridium mass activity for oxygen evolution reaction in water electrolysis devices. The 12th China Congress on Particle Technology (第十二届中国颗粒大会). 中国海口, April 21-24, 2023. (分会场主持人,荣获优秀分会场、优秀组织单位)

[7] (Invited) 高性能质子交换膜电解水制氢膜电极组件的研发及测试技术. 《纳米研究》Nano Research 校园巡回学术讲座(永利集团站). 中国海口, 04/26/2023.

[8] (Invited) Analyzing the internal voltage losses in an operating proton exchange membrane water electrolyzer. 第三届国际电化学能源系统会议. 中国银川, July 27-30, 2022.

[9] (Invited) Developing novel multifunctional electrodes for high-efficient water splitting. 14th International Green Energy Conference (IGEC-XIV). Virtually online, July 4-8, 2022.

[10] (Invited) Novel Electrode Design and Diagnostic in Water Electrolysis for Hydrogen Production. Global Summit and Expo on Sustainable and Renewable Energy (GSESRE2022). Copenhagen, Denmark, June 16-18, 2022.

[11] (Invited) A novel ultra-thin/tunable liquid/gas diffusion electrode with high iridium mass activity for oxygen evolution reaction in water electrolysis devices. 2021年中国化工学会年会. 中国沈阳, September 24-26, 2021. (分会场主持人)

[12] Optimizing the Porous Transport Layer and Catalyst Layer Interfacial Contact and Operating Protocol for PEM Water Electrolyzer Cells. 238th ECS Meeting (PRiME 2020 ECS, ECSJ, & KECS Joint Meeting)). Hawai’i Convention Center, Honolulu, HI, USA, October 4-9, 2020.

[13] In-Situ Analysis of Voltage Losses at the Porous Transport Layer in a PEM Water Electrolyzer Cell. 238th ECS Meeting (PRiME 2020 ECS, ECSJ, & KECS Joint Meeting)). Hawaii Convention Center, Honolulu, HI, USA, October 4-9, 2020.

[14] Investigation of Porous Transport Layer Parameters for Proton Exchange Membrane Water Electrolysis. 236th ECS Meeting. Hilton Atlanta, Atlanta, GA, USA, October 13–17, 2019.

[15] Developing Novel Multifunctional Materials for High-Efficiency Electrical Energy Storage. 2018 Annual Review Meeting for Crosscutting Research, Omni William Penn Hotel, 530 William Penn Place, Pittsburgh, PA, USA, April 10-12, 2018.


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