刘桂成
姓名:刘桂成
职称:教授
职务:无
院系:能源动力与机械工程学院
研究方向:
光电转换/储能电池:二次电池、燃料电池、太阳能电池、电解池等
37000dcm威尼斯的联系方式:
电话:15101010531(微信同号)
邮箱:gcliu@ncepu.edu.cn, log67@163.com
地址:主楼f624
个人简介及主要荣誉称号:
河北枣强人,2013年获北京科技大学冶金工程博士学位。2013-2015年中科院北京纳米能源所做博士后,2015-2018年韩国科学技术研究院(kist)做博士后,2018年任职嘉泉大学研究员,2018-2023年担任donggukuniversity(东国大学)物理系助理教授和kist访问教授,2023年至今被聘为华北电力大学教授。
以光电转换/储能电池为主轴,聚焦于(膜)电极微结构调控、电极表/界面的半导体设计等,以实现金属电极的无枝晶化/柔性可穿戴化、电极过程动力学的改善、光调控/增强型电极的开发为目标,具备15年的基础研究和技术转化经验。主持政府间国际合作国家重点研发等6项韩国自然科学基金和华电高层次人才引进等3项国内研究基金。授权中、韩专利25项,发表120余篇学术论文。其中,在adv energy mater、acs energy lett、appl catal b、adv funct mater、acs nano、nano energy、carbon energy、energy stroage mater、nano-micro lett等期刊第一/通讯作者论文86篇(一区近50篇,二区20余篇),h因子32。materials reports: energy副主编,《电化学》编委和nano-micro lett、esci、rare metals、ccl、ijmmm等期刊青年编委。angew chem、nat comm、cell rep phys sci等80余sci期刊审稿/仲裁人。受邀为第九届东亚峰会、中国储能产教融合大会等国内外学术会议作主题报告、主旨演讲和邀请报告十余次,作为分会场主席和学术委员参与组织了国际、国内的能源与环境学术会议。
教学与人才培养情况:
1、教学课程
电化学工程,2023年至今,64学时,35人
2、学生培养
[1] 在韩时期,东国大学博士生4名(含合作培养和访问生,已毕业3名),协助kist指导博士生/硕士生各3名(均已毕业)。当前,在读硕士生2名,合作指导东国大学在读博士生1名。
[2] 学生获奖:3名博士生获东国大学srd-ⅰ全额奖学金和2022年度学校最佳论文奖;2名博士生获park kwanho奖学金和2022年国家优秀自费留学生奖学金。
主要科研项目情况:
[1] 华北电力大学高层次**,主持
[2] 韩国自然科学基金:国家重点研发计划-政府间国际创新合作,2022k1a3a1a20014496,1.8亿韩元,~107万元rmb,主持(韩方pi)
[3] 韩国自然科学基金:基础研究,2022r1f1a1074707,1.85亿韩元,~110万元rmb,已结题,主持
[4] 韩国自然科学基金:国际合作交流项目,2021k2a9a2a06044652,0.3亿韩元,~18万元rmb,已结题,主持(韩方pi)
[5] 韩国自然科学基金:优秀青年研究项目,2019r1c1c1006310,3.75亿韩元,~225万元rmb,已结题,主持
[6] 韩国自然科学基金:国家智库学者brain pool计划(韩国教职序列),2019h1d3a2a02100593,1.8亿韩元,~108万元rmb,已结题,主持
[7] 韩国自然科学基金:海外优秀学者引进krf计划-高丽学者,2015h1d3a1036078,1.7亿韩元,~100万元rmb,已结题,主持
主要获奖情况:
[1]2019年获韩国智库学者计划(韩国教职序列)资助,
[2] 2015年获韩国海外优秀学者引进计划资助。
代表性论著:
[1] l xiong, h fu, k yang, jy kim, r ren, jk lee*, w yang*, g liu*. reversible zn/polymer heterogeneous anode. carbon energy, 2023, 5(6): e370. (if 21.556, q1)
[2] l xiong, y kim, h fu, w han, w yang*, g liu*. f-doped carbon nanoparticles-based nucleation assistance for fast and uniform three-dimensional zn deposition. advanced science, 2023, 10(16): 2300398. (if 17.521, q1)
[3] r ardhi, g liu*, j park, jk lee*. alkali adatom-amplified schottky contact and built-in voltage for stable zn-metal anodes. energy storage materials, 2023, 54: 863–874. (if 20.831, q1)
[4]h fu, y liu, z xie, y kim, r ren, w yang*, g liu*. ionic accelerator based on metal–semiconductor contact for fast electrode kinetics and durable zn-metal anode. chemical engineering journal, 2023, 468: 143642. (if 16.744, q1)
[5] l wang, l wang, q shi, c zhong, d gong, x wang, c zhan*, g liu*. in-situ constructed sno2 gradient buffer layer as a tight and robust interphase toward li metal anodes in latp solid state batteries.journal of energy chemistry, 2023, 80: 89–98. (if 13.599, q1)
[6] k yang, h fu, y duan, m wang, mx tran, jk lee*, w yang*, g liu*.uniform metal sulfide@n-doped carbon nanospheres for sodium storage: universal synthesis strategy and superior performance. energy & environmental materials, 2023, 6(2): e12380.(if 13.443, q1)
[7] l wang, d gong, s niu, l wang, q shi, x wang, j qiao, g liu*, c zhan*. origin and regulation of interfacial instability for nickel-rich cathodes and nasicon-type li1 xalxti2−x(po4)3 solid electrolytes in solid-state lithium batteries. applied surface science, 2023, 619: 156741.(if 7.392, q1)
[8] r ren, g liu*, jy kim, rea ardhi, mx tran, w yang, jk lee*. photoactive g-c3n4/cuzif-67 bifunctional electrocatalyst with staggered p-n heterojunction for rechargeable zn-air batteries. applied catalysis b: environmental, 2022, 306: 121096. (if 24.319, q1)
[9] h fu, l xiong, w han, m wang, yj kim, x li, w yang*, g liu*. highly active crystal planes-oriented texture for reversible high-performance zn metal batteries. energy storage materials, 2022, 51: 550–558. (if 20.831, q1)
[10]j kim, g liu*, r ardhi, j park, h kim, j.k. lee*. stable zn metal anodes with limited zn-doping in mgf2 interphase for fast and uniformly ionic flux. nano-micro letters, 2022, 14: 46. (if 23.655, q1)
[11] w han, l xiong, m wang, w seo, y liu, stu din, w yang*, g liu*. interface engineering via in-situ electrochemical induced znse for a stabilized zinc metal anode. chemical engineering journal, 2022, 442: 136247. (if 16.744, q1)
[12] l wang, r wang, c zhong, l lu, d gong, q shi, y fan, x wang, c zhan*, g liu*. new insight on correlation between the electrochemical stability and the thermal stability of high nickel cathode materials. journal of energy chemistry, 2022, 72: 265–275. (if 13.599, q1)
[13] l wang, r wang, q shi,c zhong, d gong, l lu, x wang, g liu*, c zhan*. enhanced high-voltage robustness of ultra-high nickel cathodes by constructing lithium-ion conductor buffer layer for highly stable lithium-ion batteries. applied surface science, 2022, 605: 154684. (if 7.392, q1)
[14] r ardhi, g liu*, jk lee*. metal-semiconductor ohmic and schottky contact-interfaces for stable li-metal electrodes. acs energy letters, 2021, 6: 1432–1442. (if 23.991, q1)
[15] h fu, g liu*, l xiong, m wang, j lee, r ren, w yang*, jk lee*. a shape-variable, low-temperature liquid metal–conductive polymer aqueous secondary battery. advanced functional materials, 2021, 31(50): 2107062. (if 19.924, q1)
[16] g shim, tran m x, g liu*, d byun, jk lee*. flexible, fiber-shaped, quasi-solid-state zn-polyaniline natteries with methanesulfonic acid-doped aqueous gel electrolyte. energy storage materials, 2021, 35: 739–749. (if 20.831, esi高被引, q1)
[17] l xiong, g liu*, h. fu, m. wang, j. kim, w. yang*, j.k. lee*. wearable eutectic gallium-indium liquid fuel cells. energy conversion and management, 2021, 247: 114729. (if 11.533, q1)
[18] w han, g liu*, w seo, h chu*, w yang*. nitrogen-doped carbon nanosphere-chains with tunable interlayer distance for superior pseudocapacitance-dominated zinc- and potassium-ion storage. carbon, 2021, 184: 534–543. (if 11.307, q1)
[19] j li, y lin*, f wang, j shi, j sun, b ban, g liu*, j chen*. progress in recovery and recycling of kerf-loss silicon waste in photovoltaic industry. separation and purification technology, 2021, 254: 117581. (if 9.136, esi高被引, q1)
[20] j kim, g liu*, gy shim, h kim, jk lee*. functionalized zn@zno hexagonal pyramid array for dendrite-free and ultrastable zinc metal anodes. advanced functional materials, 2020, 30(36): 2004210. (if 19.924, q1)
[21] r ardhi, m tran, m wang, g liu*, jk lee*. chemically tuned, bi-functional polar interlayer for tio2 photoanodes in fibre-shaped dye-sensitized solar cells. j mater chem a, 2020, 8: 2549–2562. (if 14.511, q1)
[22] m tran, r ardhi, g liu*, jy kim, jk lee*. plasma-polymerized c60-coated cnt interlayer with physical and chemical functions for lithium-sulfur batteries. chemical engineering journal, 2020, 401: 126075. (if 16.744, q1)
[23]h yu, g liu*, m wang, r ren, g shim, jy kim, mx tran, d byun, jk lee*. plasma-assisted surface modification on electrode interface for flexible fiber-shaped zn–polyaniline batteries. acs applied materials & interfaces, 2020, 12(5): 5820–5830. (if 10.383, q1)
[24] g liu*, et al. cathode catalyst layer with nanofiber microstructure for direct methanol fuel cells. energy conversion and management, 2020, 218, 113013. (if 11.533, q1)
[25] j kim, g liu*, mx tran, rea ardhi, h kim, jk lee*. synthesis and characterization of a hierarchically structured three-dimensional conducting scaffold for highly stable li metal anodes. j mater chem a, 2019, 7(20): 12882–12892. (if 14.511, q1)
[26] m wang, m chen, z yang, g liu*, jk lee, w yang, x wang*. high-performance and durable cathode catalyst layer with hydrophobic c@ptfe particles for low-pt loading membrane assembly electrode of pemfc. energy conversion and management, 2019, 191: 132–140. (if 11.533, q1)
[27] g liu*, et al. soft, highly elastic, and discharge current-controllable eutectic gallium-indium liquid metal-air battery operated at room temperature. advanced energy materials, 2018, 8(6): 1703652. (if 29.698, q1) .
[28] r ardhi, gliu*, mx tran, c hudaya, jy kim, h yu, jk lee*. self-relaxant super-elastic matrix derived from c60 incorporated sn nanoparticles for ultra-high-performance li-ion batteries. acs nano, 2018, 12(6): 5588–5604. (if 18.027, q1)
[29] g liu*, m wang, h wang, rea ardhi, h yu, d zou*, jk lee*. hierarchically structured photoanode with enhanced charge collection and light harvesting abilities for fiber-shaped dye-sensitized solar cells. nano energy, 2018, 49: 95–102. (if 19.069, q1)
[30]j kim, a kim, g liu*, jy woo, h kim, jk lee*. li4sio4-based artificial passivation thin film for improving interfacial stability of li metal anodes. acs applied materials & interfaces, 2018, 10 (10): 8692–8701. (if 10.383, q1)
[31] m wang, m chen, z yang, y wang, y wang, g liu*, jk lee, x wang*. a study on fuel additive of methanol for room temperature direct methanol fuel cells. energy conversion and management, 2018, 168: 270–275. (if 11.533, q1)
[32] x li, g liu*, f ma, s sun, s zhou, rea ardhi, jk lee, h yao*. enhanced power generation in a single-chamber dynamic membrane microbial fuel cell using a nonstructural air-breathing activated carbon fiber felt cathode. energy conversion and management, 2018, 172: 98–104. (if 11.533, q1)
[33] x li, g liu*, s sun, f ma, s zhou, jk lee, h yao*. power generation in dual chamber microbial fuel cells using dynamic membranes as separator. energy conversion and management, 2018, 165, 488–494. (if 11.533, q1)
[34] g liu*, h wang, m wang, w liu, rea ardhi, d zou*, jk lee*. study on a stretchable, fiber-shaped, and tio2 nanowire array-based dye-sensitized solar cell with electrochemical impedance spectroscopy method. electrochimi acta, 2018, 267: 34–40. (if 7.336, q2)
[35] g liu, m peng, w song, h wang, d zou*. an 8.07% efficient fiber dye-sensitized solar cell based on a tio2 micron-core array and multilayer structure photoanode.nano energy, 2015, 11: 341–347.
实验室:(光电转换-储能电池组隶属太阳能转化与储能技术研究所)