人才信息库
刘建国
性 别 最高学历 博士研究生
职 称 正高级工程师 专家类别 硕士生导师
部 门 腐蚀控制技术与工程研究部
通讯地址 辽宁省沈阳市沈河区文萃路62号,中国科学院金属研究所,腐蚀控制技术与工程研究部
邮政编码 110016 电子邮件 jgliu@imr.ac.cn
电 话 +86-24-23880201 传 真 +86-24-23998320
简历:

  教育经历:

  2002/09-2005/07,中国科学院金属研究所,材料学,博士

  1995/09-2002/07,辽宁大学化学院,学士、硕士

  工作经历:

  2009/10-迄今,中国科学院金属研究所,副研究员、正高级工程师

  2005/07-2009/10,中国科学院金属研究所,助理研究员

研究领域:

液流电池储能;应用电化学技术;环保防护。

具体方向:

◆ 液流电池关键材料(隔膜、电极、电解液)

◆ 液流电池储能技术(高能量密度、低成本)

◆ 应用电化学(电解、电抛、去支撑、去残粉)

◆ 环保防护(环保钝化与转化、无铬涂料)

研究特色:

面向双碳及长时储能对液流电池关键材料的需求,开发低成本、高性能的离子膜、电极及电解液等关键材料,研究高功率电堆及储能系统:

1、液流电池膜材料

基于离子通道序构化思想,采用多层自主装、电化学诱导等路线,设计制备具有创新结构的全氟、非氟离子膜及复合膜。

2、液流电池电极材料

碳纤维本体及表面微结构设计,提升电极材料活性及电池综合性能;泡沫碳等低成本、高性能新型电极材料设计开发。

3、钒电解液材料

低成本钒电解液制备;价态调节电解装置技术;容量恢复与回收再生。

4、电堆及储能系统

高功率电堆设计;储能系统优化。

承担科研项目情况:

先后承担国家重点研发计划课题、国家自然基金、国家部委及企业合作项目30余项。近年在钒电解液生产工艺、产线设计与关键装备、序构化离子膜材料、高性能电极材料、高功率密度液流电池电堆等方面,做出一些特色与创新工作。发表论文70余篇,获专利权70余项。主持行业标准1项,参与国家及行业标准9项,参撰专著1部。

社会任职:

中国能源行业液流电池标委会委员

中国腐蚀与防护学会涂料涂装及表面保护技术专委员会委员

中国化学与物理电源行业协会储能专委会委员

《钢铁钒钛》青年编委

沈阳市标准化专家

获奖及荣誉:

  国家电网科学技术进步三等奖

代表论著:

[1] Qi Zhou,Xihao Zhang,Yanbo Zhang,Shaoyu Hou,Jinling Zhao,Hongxiang He,Xiaoliang Wu,Denghua Zhang,Jianguo Liu,Chuanwei Yan,Tailored porous PBI membranes featuring efficient proton conduction pathways and multi-barrier systems for high-rate vanadium flow batteries,Journal of Membrane Science,2025,719: 123769.

[2] Xihao Zhang,Lansong Liu,Kaiyue Zhang,Denghua Zhang,Jianguo Liu,Chuanwei Yan. Modulating single-atom sulfur-vacancy defect in MoS2-x catalysts to boost cathode redox kinetics for vanadium flow batteries. Energy Storage Materials,2024,69,103442-103452.

[3] Xihao Zhang,Lansong Liu,Shaoyu Hou,Qi Zhou,Yanbo Zhang,Xuehui Chen,Nianwen Pu,Jianguo Liu,Chuanwei Yan. Nitrogen,Phosphorus,and Sulfur co-doped carbon nanotubes/melamine foam composite electrode for high-performance vanadium redox flow battery,Journal of Materials Science & Technology,2024,190,127-134.

[4] Xihao Zhang,Denghua Zhang,Lansong Liu,Kaiyue Zhang,Yifan Zhang,Jinling Zhao,Linting Han,Minghua Jing,Jianguo Liu,Chuanwei Yan. MOF-derived W/Zr bimetallic oxides@Carbon for comprehensively remedying melamine foam electrode defects in vanadium redox flow battery,Chemical Engineering Journal,2023,467,143360-143370.

[5] Lansong Liu,Xihao Zhang,Denghua Zhang,Kaiyue Zhang,Shaoyu Hou,Shaoliang Wang,Yifan Zhang,Haiquan Peng,Jianguo Liu,Chuanwei Yan. Regulating the N/B ratio to construct B,N co-doped carbon nanotubes on carbon felt for high-performance vanadium redox flow batteries,Chemical Engineering Journal,2023,473,145454-145464.

[6] Lansong Liu,Xihao Zhang,Yifan Zhang,Yanbo Zhang,Qi Zhou,Shaoyu Hou,Hongxiang He,Jingling Zhao,Jianguo Liu and Chuanwei Yan. Highly active electrospinning electrode based on MOF for high-performance vanadium flow batteries,Journal of The Electrochemical Society,2023,170,110505-110512.

[7] Chao Luan,Denghua Zhang,Zhanbin Liu,Xihao Zhang,Yue Zhang,Zishen Yu,Yifan Zhang,Weiguo Xu,Jianguo Liu,Chuanwei Yan. Advanced hybrid polybenzimidazole membrane enabled by a “linker” of metal-organic framework for high-performance vanadium flow battery,Chemical Engineering Journal,2023,461,142032-142041.

[8] Denghua Zhang,Wenjie Yu,Yue Zhang,Sihan Cheng,Mingyu Zhu,Shuai Zeng,Xihao Zhang,Yifan Zhang,Chao luan,Zishen Yu,Lansong Liu,Kaiyue Zhang,Jianguo Liu,Chuanwei Yan. Reconstructing proton channels via Zr-MOFs realizes highly ion-selective and proton-conductive SPEEK-based hybrid membrane for vanadium flow battery, Journal of Energy Chemistry,2022,75,448–456.

[9] Xihao Zhang,Denghua Zhang,Zeyu Xu,Kaiyue Zhang,Yifan Zhang,Minghua Jing,Lei Liu,Zhongyu Zhang,Nianwen Pu,Jianguo Liu,Chuanwei Yan. A pioneering melamine foam-based electrode via facile synthesis as prospective direction for vanadium redox flow battery,Chemical Engineering Journal,2022,439,135718-135727.

[10] Denghua Zhang,Xihao Zhang,Chao Luan,Biao Tang,Zhongyu Zhang,Nianwen Pu,Kaiyue Zhang,Jianguo Liu,Chuanwei Yan. Zwitterionic interface engineering enables ultrathin composite membrane for high-rate vanadium flow battery,Energy Storage Materials,2022,49,471-480.

[11] Yifan Zhang,Xihao Zhang,Zeyu Xu,Denghua Zhang,Wenjie Yu,Yue Zhang,Lansong Liu,Jianguo Liu,Chuanwei Yan. An advanced large-porosity porous channel structure electrode for vanadium redox flow batteries,Journal of Power Sources,2022,552,232241-232250.

[12] Denghua Zhang,Zeyu Xu,Xihao Zhang,Lina Zhao,Yingying Zhao,Shaoliang Wang,Weihua Liu,Xuefu Che,Jingshuai Yang,Jianguo Liu,Chuanwei Yan. Oriented proton-conductive nanochannels boosting a highly conductive proton-exchange membrane for a vanadium redox flow battery,ACS Applied Materials & Interfaces,2021,13,4051-4061.

[13] Zeyu Xu,Mingdong Zhu,Kaiyue Zhang,Xihao Zhang,Lixin Xu,Jianguo Liu,Tao Liu,Chuanwei Yan. Inspired by “quenching-cracking” strategy: Structure-based design of sulfur-doped graphite felts for ultrahigh-rate vanadium redox flow batteries,Energy Storage Materials,2021,39,166-175.

标准情况:

主持制定:《NB/T 10092-2018全钒液流电池用橡胶类密封件技术条件》

参与制定:《GB/T 43512-2023全钒液流电池可靠性评价方法》

《NB/T 11489-2024铁-铬液流电池通用技术条件》

《NB/T 11488-2024液流电池储能系统变流器通用技术条件》

《NB/T 11487-2024箱式液流电池储能系统通用技术要求》


近期获得专利:

[1] 刘建国, 吴晓亮, 侯绍宇, 液流电池电解液价态调节电解装置, 授权号:ZL202430363111.3.

[2] 刘建国, 吴晓亮, 侯绍宇, 液流电池电解液价态调节电解电堆, 授权号:ZL 202430363113.2.

[3] 刘建国, 何虹祥, 吴晓亮, 侯绍宇, 一种全价态可控的钒液流电池电解液生产系统, 授权号:ZL202321198910.6.

[4] 刘建国, 侯绍宇, 吴晓亮, 一种液流电池电解液连续化生产线, 授权号:ZL202320129998.X.

[5] 刘建国, 含毒废液电化学处理装置, 授权号:ZL202330245840.4.

[6] 刘建国, 吴晓亮, 侯绍宇,液流电池电堆, 授权号:ZL202330068316.4.

[7] 刘建国, 侯绍宇, 吴晓亮,一种液流电池电解液连续化生产线, 授权号:ZL202320129998X.

[8] 刘建国, 张登华, 徐泽宇, 赵丽娜,严川伟, 一种全钒氧化还原液流电池用超薄膜及其制备方法, 授权号:ZL202010221714.0.

[9] 刘建国, 张登华, 徐泽宇, 赵丽娜, 严川伟, 全氟磺酸树脂/聚偏氟乙烯复合电纺丝膜及其制备方法, 授权号:ZL202010221690.9.


研究生培养情况:

指导学生获奖:中科院院长奖学金1人;国家奖学金3人,师昌绪一等2人,师昌绪二等1人

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