李丽波

发布时间:2021-03-03

李丽波Libo Li),工学博士,龙江学者青年学者,三级教授,博士生导师。

联系方式:邮箱:llbo2002@126.comQQ: 2606543574

  1. 教育背景

    2006年于哈尔滨工业大学获应用化学专业工学博士学位,研究方向为电化学方向。

  2. 研究方向

    长期致力于电化学领域研究,专注于固态锂电池技术。

    从事电化学理论及应用,二次电池关键材料的制备及器件集成,固态锂电池、锂离子电池、锂硫电池,钙钛矿太阳能电池,表面及界面工程等领域的研究。取得了以下一些成果:

    1)提出了基于固态电解质离子传输原理的化学电源方案,基于该方案设计制造了一系列固态锂电池,该系列电池突出优点是可以在宽温环境条件下充分保证应用的安全性,在推动固态电池在电子和动力汽车领域的应用方面具有明显优势。

    2) 发表学术论文70余篇,SCI收录60篇(入选ESI高倍引论文3篇,ESI热点论文2篇、封面论文1篇);授权发明专利43项;出版著作2部。

    3) 主持国家自然科学基金1项、工业和信息化部、黑龙江省自然科学基金、黑龙江省教育厅科技重点项目、哈尔滨市制造业科技创新人才项目、校企合作项目等多项科研项目。

    4)获得黑龙江省科学技术奖(自然科学类)三等奖(1/5)、黑龙江省高校科学技术奖三等奖1项(1/5)、二等奖1项(1/5)、黑龙江省科学技术奖(发明)一等奖(11/11)、中国表面工程协会科学技术贡献奖、黑龙江省高等教育教学成果一等奖(12/15)。

    Li Libo received her Ph.D. in Applied Chemistry from Harbin Institute of Technology in 2006, with a research focus on electrochemistry. She engaged in the field of electrochemical theory and application, preparation of key materials for secondary batteries and device integration, including solid state lithium batteries, lithium-ion batteries, lithium-sulfur batteries, perovskite solar cells, and surface and interface engineering. The following results have been achieved:

    1) A chemical power supply scheme based on the principle of solid electrolyte ion transport was proposed, and a series of solid-state lithium batteries were designed and manufactured based on the scheme. The outstanding advantage of this series of batteries is that they can fully guarantee the safety of applications under wide temperature environmental conditions, and have obvious advantages in promoting the application of solid-state batteries in the field of electronics and power vehicles.

    2) Published more than 70 academic papers, 60 of which were included in SCI (3 ESI high-citation papers, 2 ESI hot papers, 1 cover paper); 36 authorized invention patents; 2 published books.

    3) Hosted a number of scientific research projects, including National Natural Science Foundation, the Ministry of Industry and Information Technology, the Natural Science Foundation of Heilongjiang Province, the Science and Technology Key Project of Heilongjiang Provincial Education Department, the Harbin Manufacturing Science and Technology Innovation Talent Project, Minkou and J-Kou Horizontal research projects.

    4) Heilongjiang Province Science and Technology Award (Natural Science) third prize (1/5), Heilongjiang Province University Science and Technology Award third prize (1/5), second prize (1/5), Heilongjiang Province Science and Technology Award (invention) first prize (11/11), China Surface Engineering Association Science and Technology Contribution Award, Heilongjiang Province Higher Education Teaching Achievement first prize (12/15)

     

    荣誉奖励

2025年:黑龙江省科技总师(合作企业:佳木斯中光电)

2024年:黑龙江省龙江网络特色课程《电池原理与制造技术》

2024年:首届哈尔滨理工大学教师节之毕业设计档案规范性评选一等奖

2023年:省级一流本科课程

2022年:中国创新挑战赛暨中关村新兴领域专题赛优胜奖

2021第六届中国创新挑战赛(南充)优秀奖

2020年:黑龙江省高等教育教学成果一等奖

2020年:第七届黑龙江省高校微课教学比赛三等奖

2020年:高等学校课程思政建设校级示范课程

2019年:黑龙省高等教育教学成果奖一等奖

2019年:中国表面工程协会科学技术贡献奖

2019年:哈尔滨理工大学优秀共产党员

2018年:龙江学者青年学者

2018年:黑龙江省示范性虚拟仿真实验教学项目负责人

2018年:黑龙江省高校科学技术奖三等奖

2018年:哈尔滨理工大学第五届青年教师多媒体课件制作大赛一等奖

2017年:指导学生HIT International Innovation and Entrepreneurship Competition on Chemistry and Chemical Engineering 大赛三等奖

2017年:第四届中表镀-安美特优秀青年教师

2016年:哈尔滨理工大学优秀主讲教师

2013年:黑龙江省科学技术奖(自然科学类)三等奖

2013年:黑龙江省高校科学技术奖二等奖

2013年:哈尔滨理工大学基本功大赛优秀奖

2013年:哈尔滨理工大学教学新秀

2013年:黑龙江省首批精品视频公开课

2012年:哈尔滨理工大学优秀主讲教师

2012年:哈尔滨理工大学优秀毕业设计(论文)指导教师

2012年:哈尔滨理工大学教学能手

2012年:第六届哈尔滨理工大学思想政治教育研究会年会论文二等奖

2012年:高等学校骨干教师培训优秀学员

2012年:哈尔滨理工大学优秀教师

2010年:黑龙江省科学技术奖一等奖(发明)

 

科研项目

  1. 黑龙江省自然科学基金. 固态锂硫电池关键材料制备及电池集成技术 (LH2024B017). 2024.12-2027.12, 10万,在研,主持。

  2. 哈尔滨市制造业科技创新人才项目. 长寿命高比能锂硫电池技术研究(No.2022CXRCCG007). 2022.10-2025.04, 50万,结题,主持。

  3. 锂氟化碳电池用全碳集流体技术. 横向项目, 2023.6.1-2025.6.1, 9.78万,结题,主持。

  4. 国家自然基金青年项目. 柔性铜铟镓硒薄膜生长动力学与可控电化学沉积研究(No.21706043),2018.01-2021.12, 28万,结题,主持。

  5. 哈尔滨市应用技术研究与开发项目. 锂离子电池凝胶型薄膜电解质的制备与应用研究(No.2015RAQXJ0302015.09-2017.095万,结题,主持。

  6. 校企合作横向项目. 高性能胎圈钢丝化镀及涂层研究(No. 201523000100013112结题,主持。

  7. 哈尔滨市科技计划项目. 铜铟镓硒柔性薄膜太阳能电池机理及其实现研究(No.2012RFQXG085, 2015.09-2017.09, 3万,结题,主持。

  8. 黑龙江省教育厅科学技术研究重点项目. 铜铟镓硒柔性薄膜太阳能电池机理及其实现研究(No.1252lz008, 2012.01-2014.12, 3万,结题,主持。

  9. 黑龙江省自然基金. 凝胶性离子液体/聚合物电解质的制备及工作机理研究(No.B201007, 2011.01-2015.11, 5万,结题,主持。

     

    教学工作

    为本科生授课3门,其中,《电池原理与制造技术》被评为黑龙江省龙江特色网络课程和校级数智课程和《建筑材料与化学》被评为省级一流本科课程,《无机化学》被评为课程思政建设校级示范课,分别为硕士研究生授课2门,主持省级教改课题3项,黑龙江省教育科学十三五规划2017年度备案课题、十四五规划2021年度重点课题,哈尔滨理工大学教育教学研究项目3项,主讲《生活中的化学点滴》被评为黑龙江省首批精品视频公开课,主持省级虚拟仿真实验教学项目,获得省教学成果一、二等奖,省一流课程,省微课大赛三等奖,教学能手,教学新秀,优秀教师,优秀主讲教师(2次),毕业设计优秀指导教师等荣誉称号,指导国家大学生创新实验2项,省级研究生创新项目1项,省互联网+”大学生创新创业大赛银奖,HIT国际创新创业化工大赛三等奖。发表论文10余篇。

主讲课程

  • 物理化学(本科生专业基础课)

  • 电池原理与制造技术(本科生专业方向课)

  • 电化学催化技术(硕士研究生课程)

  • 能源电化学(硕士研究生课程)


学术任职

[1] 黑龙江省化学学会理事

[2] ACS 杂志审稿专家

[3] 教育部学位与研究生教育发展中心评审专家

[4] 龙江学者青年学者

[5] 学术桥评审专家

[6] 国家重点研发计划项目咨询专家

[7] 江苏兴达钢帘线股份有限公司专家顾问

 

工作经历

2018.9 -今      哈尔滨理工大学 三级教授/博士生导师

2018.9 -2021.9  龙江学者青年学者

2019.2 -2020.1  美国德州州立大学 访问学者

2013.9 -2018.8  哈尔滨理工大学 教授/硕士生导师

2016.2 -2017.2  美国德州州立大学 访问学者

2008.9 -2013.8  哈尔滨理工大学 副教授/硕士生导师

2006.4 -2008.8  哈尔滨理工大学 讲师

学生培养

每年招收1名博士,2-3名硕士。

具有良好的专业知识混合英文写作能力者优先,有意者请提前联系。

研究生培养

  • 2025级博士研究生 陆文溢 校级奖学金获得者 

  • 2022级博士研究生 李锁 国家级、校级奖学金获得者 

  • 2021级博士研究生 杨杭 校级奖学金获得者

  • 2019级博士研究生 单宇航 国家奖学金获得者

  • 2024级硕士研究生 陆文溢 校级奖学金获得者

  • 2024级硕士研究生 邓祥瑞 校级奖学金获得者

  • 2023级硕士研究生 王祉翾 校级奖学金获得者

  • 2023级硕士研究生 徐文豪 国家级、校级奖学金获得者,省三好学生获得者

  • 2022级硕士研究生 童昊 国家级奖学金获得者

  • 2021级硕士研究生 曲文华 校级奖学金获得者

  • 2021级硕士研究生 范书博 校级奖学金获得者

  • 2019级士研究生 陈晓川 校级奖学金获得者 校优秀研究生

  • 2019级硕士研究生 崔文俊 校级奖学金获得者

  • 2018级硕士研究生 周达 校级奖学金获得者

  • 2017级硕士研究生 杜金田

  • 2017级硕士研究生 翟墨 校级奖学金获得者

  • 2016级硕士研究生 谢明 校级奖学金获得者

  • 2016级硕士研究生 龙沧海 校级奖学金获得者

  • 2015级硕士研究生 王福日 国家奖学金获得者

  • 2014级硕士研究生 杨雪莹 校级奖学金获得者

  • 2013级硕士研究生 高冠雄 校级奖学金获得者

  • 2013级硕士研究生 马月 校优秀研究生 校级奖学金获得者

  • 2012级硕士研究生 李捷斯 校级奖学金获得者

  • 2012级硕士研究生 徐妍

  • 2011级硕士研究生 徐艳萍 校级奖学金获得者

  • 2011级硕士研究生 李琦 国家奖学金获得者

  • 2010级硕士研究生 杨硕

  • 2010级硕士研究生 王文涛

  • 2010级硕士研究生 王佳佳 主持完成省级研究生创新项目

  • 2009级硕士研究生 谢菁琛

    上述大部分同学目前就职于宁德时代、亿纬锂能、豪鹏电池等电池头部企业以及在国内高校任职。

出版物

1. 代表性文章

2026

  1. Suo Li, Libo Li*, Hang Yang, Zhixuan Wang, Xiangrui Deng, Wenyi Lu, Wenhao Xu. Breaking the boundaries of Li–S batteries with high-entropy engineered multifunctional materials. Energy & Environmental Science 2026, https://doi.org/10.1039/d5ee05863e (SCI, IF = 31.0)

  2. Zhixuan Wang,† Shubo Fan,† Libo Li*, Hang YangSuo Li. LiNbO3mediated dielectric polarization tailoring at polymer electrolyte interfaces for dendrite-free lithium metal batteries. ACS Applied Materials & Interfaces 2026, 18, 8190−8200. (SCI, IF = 8.2)

  3. Wenhua Qu, Libo Li*, Xiangrui Deng, Shubo Fan, Hang Yang, and Suo Li. Defect-immune perovskite photovoltaics via molecular vise engineering: A pathway to scalable, encapsulation-free production under mild conditions. ACS Applied Materials & Interfaces, 2026, 18: 1048-1061. (SCI, IF = 8.2)

    2025

  4. Li Suo, Yang Hang, Tong Hao, Xu Wenhao, Wang Zhixuan, Lu Wenyi, Deng Xiangrui, Li Libo*, Orbital-tailoring strategy via dual-defect engineering in P-FeTe2-x@NC synergizes polysulfide adsorption-conversion for lithium-sulfur batteries. Advanced Materials, 2025, 37(47), e11910.  (SCI, IF =26.8)

  5. Wenhao Xu, Libo Li*, Yangmingyue Zhao, Suo Li, Hang Yang, Hao Tong, Zhixuan Wang. Some basics and details for better dual-ion batteries. Energy & Environmental Science. 2025,18: 2686-2719.  (SCI, IF = 31.0)

  6. Hao Tong, Libo Li*, Yangmingyue Zhao, Hang Yang, Suo Li, Zhixuan Wang, Wenhao Xu, Wenyi Lu, Xiangrui Deng, UV-assisted rapid polymerization of poly(Tannic acid)-silver layers for design lithiophilic layers in anode-free lithium metal batteries, Energy Storage Materials, 2025, 82, 104633.   (SCI, IF =20.2)

  7. Fan Shubo, Li Libo*, Wang Zhixuan, Yang Hang, Li Suo, Qu Wenhua. Nano-Lanthanum Oxide and Polyvinylpyrrolidone Additives enhance PVDF-based polymer electrolytes to enable safe and durable design of lithium metal datteries. Chemical Engineering Journal 2025, 521, 166538(SCI, IF =13.2)

  8. Hao Tong, Libo Li*, Zhixuan Wang, Yangmingyue Zhao, Wenhao Xu. The allure of spherical lithium deposition—realizing the stable cycle of anode-free lithium-metal batteries. Energy Storage Materials 2025, 76: 104100.   (SCI, IF =20.2)

  9. Yuhang Shan, Hang Yang, Libo Li*, Yangmingyue Zhao, Shubo Fan, Suo Li. Nd2O3 composite binder in cathodes to accelerate Li-ion transfer inlithium-sulfur cathodes. Chemical Engineering Journal 2025, 513: 162807. (SCI, IF =13.2)

  10. Wenhao Xu, Libo Li*, Hang Yang, Suo Li, and Zhixuan Wang. Unique design strategies for high-performance solid-state polymer batteries. Batteries & Supercaps 2025, 8: e202500125. SCI, IF=5.1 

  11. Xiangrui Deng, Wenhua Qu, Libo Li*, Hang Yang, Wenyi Lu, Zhixuan Wang, Wenhao Xu, Suo Li. Enhanced perovskite solar cells using Co3O4/NiOX composite hole transport layers for airstable fabrication. Journal of Materials Science: Materials in Electronics 2025 36: 1920.SCI, IF=2.8

2024

  1. Yangmingyue Zhao, Libo Li*, Da Zhou, et al. Opening and constructing stable lithium-ion channels within polymer electrolytes. Angewandte Chemie International Edition. 2024, e202404728. (SCI, IF = 16.6)

  2. Yangmingyue Zhao, Libo Li*, Da Zhou, et al. Add an extra layer to bring lithium-ions out of disorder for longevity of the solid full batteries. Advanced Functional Materials. 2024, 34: 2408379.  (SCI, IF = 19.0)

  3. Yangmingyue Zhao, Libo Li*, Hang Yang, Shubo Fan, Su Li, Hao Tong. MXene and silk fibroin peptide team up to build a 1+1>2 in situ SEI film. Energy Storage Materials. 2024, 65: 103126. (SCI, IF = 20.4)

  4. Suo Li, Libo Li*, Hang Yang, Yangmingyue Zhao, Yuhang Shan. A review of composite polymer electrolytes for solid-state lithium-sulfur batteries: Synthesis methods, optimal design, and critical challenges. Chemical Engineering Journal. 2024, 484: 149433. (SCI, IF = 15.00) 

  5. Zhixuan Wang, Hang Yang, Suo Li, Hao Tong, Wenhao Xu, Yangmingyue Zhao, Libo Li*. Small components play a big role - fillers in composite solid-state electrolytes for lithium metal batteries. Energy Materials 2024, 4: 400080.

  6. Hang Yang, Yangmingyue Zhao, Suo Li, Hao Tong, and Libo Li. Design of wide-temperature lithium-sulfur batteries. Batteries & Supercaps, 2024, e202400039. (SCI, IF = 5.7)

2023

  1. Yangmingyue Zhao, Libo Li*, Yuhang Shan, Da Zhou, Xiaochuan Chen, Wenjun Cui, Heng Wang. In situ construction channels of lithium-ion fast transport and uniform deposition to ensure safe high-performance solid batteries. Small. 2023, 19(39): 2301572. (SCI, IF = 15.153).

  2. Yangmingyue Zhao, Libo Li*, Da Zhou, Yuhang Shan, Xiaochuan Chen, Wenjun Cui. A charge equalizer in accordion-MXene-Modified layer leading to spherical lithium deposition. Energy & Environmental Materials. 2023, 6(6): e12463. (SCI, IF = 13.443)

  3. Hang Yang, Libo Li*, Yuhang Shan, Xiaochuan Chen, Yangmingyue Zhao, Shubo Fan, CuO-ZnO heterojunction doped 2D ultrathin carbon nanosheet catalyzes rapid charge-transfer kinetics of lithium-sulfur batteries. Applied Surface Science, 2023, 635, 157738. (SCI, IF = 6.700)

2022

  1. Xiaochuan Chen, Libo Li*, Yuhang Shan, Da Zhou, Wenjun Cui, Yangmingyue Zhao, Notes in accordions—organized MXene equipped with CeO2 for synergistically adsorbing and catalyzing polysulfides for highperformance lithium-sulfur batteries. Journal of Energy Chemistry, 2022, 70, 502–510. (SCI, IF = 13.1, ESI高被引论文, ESI热点论文)

  2. Yuhang Shan, Libo Li*, Xiaochuan Chen, Shubo Fan, Hang Yang, and Yanxia Jiang. Gentle haulers of lithium-ion nanomolybdenum carbide fillers in solid polymer electrolyte. ACS Energy Letters, 2022, 7, 2289-2296. (SCI, IF = 22.0, ESI高被引论 )

2021:

  1. Libo Li*, Yuhang Shan, Furi Wang, Xiaochuan Chen, Yangmingyue Zhao, Da Zhou, Heng Wang. Improving fast and safe transfer of lithium ions in solid-state lithium batteries by porosity and channel structure of polymer electrolyte. ACS Applied Materials & Interfaces. 2021, 13(41): 48525-48535. SCI, IF=9.500, ESI高被引论文, ESI热点论文

  2. Yuhang Shan, Libo Li*. Limiting sulfur and mastering the diffusion of lithium ions with cerium oxide-based porous carbon rods. Chemical Communications, 2021, 57(75), 9550-9553. SCI, IF=4.900

  3. Yuhang Shan, Libo Li*, Jintian Du, Mo Zhai. High performance lithium-sulfur batteries using three-dimensional hierarchical porous carbons to host the sulfur, New Carbon Materials. 36 (2021) 1094-1102. SCI, IF=5.700

  4. Wenjun Cui, Libo LI*, Yan Xu, Yuhang Shan, Mo Zhai, Da Zhou, Xiaochuan Chen, Yangmingyue Zhao. Preparation of CZTS film by electro-deposition method: study on principle of deposition and film performance. Journal of Materials Science-Materials in Electronics. 2021, 32(20): 25188-25200. SCI, IF=2.8

  5. Yuhang Shan, Libo Li*, Xueying Yang, Solid-state polymer electrolyte solves the transfer of lithium ions between the solid-solid interface of the electrode and the electrolyte in lithium-sulfur and lithium-ion batteries. ACS Applied Energy Materials, 2021. 4, 5, 5101-5112. (SCI, IF=6.024)

  6. Xiaochuan Chen, Libo Li*, Yuhang Shan, Da Zhou, Wenjun Cui, Yangmingyue Zhao, Synergistic effect of cerium oxide with core-shell structure embedded in porous carbon for high-performance lithium-sulfur batteries. Materials Today Communications, 2021, 27, 102381. (SCI, IF=3.383)

  7. Canghai Long, Libo Li*, Yuhang Shan, Mo Zhai, Xiaochuan Chen, Yangmingyue Zhao, Wenjun Cui, Da Zhou, Jintian Du. Electrochemical investigation of Li ions diffusion and absorbing polysulfide of hierarchically-structured carbon for the quasi-solid lithium–sulfur batteries. Ionics, 2021, 27(9), 3895-3902. (SCI, IF=2.817)

  8. Libo Li*, Yuhang Shan, The use of graphene and its composites to suppress the shuttle effect in lithium-sulfur batteries. New Carbon Materials, 2021, 36(2): 336-349. (SCI, IF=1.905)

  9. Libo Li*, Yuhang Shan, Xueying Yang. New insights for constructing solid polymer electrolytes with ideal lithium-ion transfer channels by using inorganic filler. Materials Today Communications 26 (2021) 101910 (SCI, IF=2.678)

  10. Libo Li*, Ming Xie, Yonghong Zhang, Yanping Xu, Jia Li, Yuhang Shan, Yangmingyue Zhao, Da Zhou, Xiaochuan Chen, Wenjun Cui. Thermal safety and performances analysis of gel polymer electrolytes synthesized by in-situ polymerization for Li-ion battery. Journal of Solid State Electrochemistry, 2021, 25(7): 2021-2032. (SCI, IF=2.647)

2020:

  1. Da Zhou, Libo Li*, Jintian Du, Mo Zhai. Synergistic effect of soy protein isolate and montmorillonite on interface stability between polymer electrolyte and electrode of all-solid lithium-ion battery. Ionics 27 (2020) 137-143 (SCI, IF=2.394)

  2. Libo Li*, Mo Zhai, Canghai Long, Wentao Wang. Enhanced transmittance and photoelectrochemical 2D nanostructured N-Type semiconductor ZnS thin film prepared by one-step electrodeposition in a non-vacuum-processed CIGS cell. Journal of Electronic Materials 2020, 49: 2539-2546 (SCI, IF=2.220)

  3. Libo Li*, Stephanie O. Palmer, Elizabeth A. Gomez, Frank Mendiola, Tianzhi Wang, James M. Bullard, Yonghong Zhang*. 1H, 13C and 15N resonance assignments of translation initiation factor 3 from Pseudomonas aeruginosa. Biomolecular NMR Assignments 2020, 14: 93-97 (SCI, IF=1.20)

2019:

  1. Canghai Long, Libo Li*, Mo Zhai, Yuhang Shan. Facile preparation and electrochemistry performance of quasi solid-state polymer lithium–sulfur battery with high-safety and weak shuttle effect. Journal of Physics and Chemistry of Solids 2019, 134: 255-261 (SCI, IF=3.442)

  2. Ming Xie, Libo Li*, Yonghong Zhang, Jintian Du, You Li, Yuhang Shan, Huanyu Zheng. Mastering high ion conducting of room-temperature all-solid-state lithium-ion batteries via safe phthaloyl starch-poly(vinylidene fluoride)–based polymer electrolyte. Ionics 2020, 26: 1109-1117 (SCI, IF=2.394)

2018:

  1. Furi Wang, Libo Li*, Xueying Yang, Jun You*, Yanping Xu, Heng Wang, Yue Ma, Guanxiong Gao. Influence of additives in a PVDF-based solid polymer electrolyte on conductivity and Li-ion battery performance. Sustainable Energy & Fuels 2018, 2:  492-498 (SCI, IF=5.503)

  2. Ming Xie, Libo Li*, Kai Yuan, Yue Ma, Bo Liu. Preparation and performance evaluation of organophilic nanomontmorillonite conducting polymer electrolyte for all-solid-state lithium ion batteries. Journal of Materials Science: Materials in Electronics 2019, 30: 2030–2036 (SCI, IF=2.220)

  3. Libo Li*, Xueying Yang, Jiesi Li, Yanping Xu. A novel and shortcut method to prepare ionic liquid gel polymer electrolyte membranes for lithium-ion battery. Ionics 2018, 24 : 735-741 (SCI, IF=2.394)

2017:

  1. Libo Li*, Xueying Yang, Guanxiong Gao, Wentao Wang, Jun You. Electrodeposition process and performance of CuIn(SexS1−x)2 film for absorption layer of thin-film solar cells. Journal of Materials Engineering and Performance. 2017, 26: 5333-5340 (SCI, IF=1.652)

  2. Libo Li*, Furi Wang, Jiesi Li, Xueying Yang, Jun You. Electrochemical performance of gel polymer electrolyte with ionic liquid and PUA/PMMA prepared by ultraviolet curing technology for lithium-ion battery. International journal of hydrogen energy. 2017, 42: 12087-12093 (SCI, IF=4.939)

2016:

  1. Yue Ma, Libo Li*, Guan Xiong Gao, Xueying. Yang, Jun You, Peixia Yang. Ionic conductivity enhancement in gel polymer electrolyte membrane with N-methyl-N-butyl-piperidine-bis(trifluoromethylsulfonyl) imideionic liquid for lithium ion battery. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2016, 502: 130-138 (SCI, IF=3.990)

  2. Libo Li*, Guanxiong Gao, Qi Li, Yue Ma, Jun You, Changfa Liu, Heng Wang. Deposition mechanism and characterizations of CuInS2 film prepared by one-step electro-deposition. Journal of Materials Science-Materials in Electronics 2016, 27: 2108-2113 (SCI, IF=2.220)

  3. Yue Ma, Libo Li*, Guan Xiong Gao, Xueying. Yang, Yun You. Effect of montmorillonite on the ionic conductivity and electrochemical properties of a composite solid polymer electrolyte based on polyvinylidenedifluoride/polyvinyl alcohol matrix for lithium ion batteries. Electrochimica Acta 2016, 187: 535-542 (SCI, IF=6.215)

  4. Libo Li*, Yue Ma, Guanxiong Gao, Wentao Wang, Shaowen Guo, Jun You, Jingchen Xie. Fabrication and characterization of copper-indium-diselenide (CuInSe2, CIS) thin film using one-step electro-deposition process. Journal of Alloys and Compounds 658 (2016) 774-779 (SCI, IF=4.650)

  5. Libo Li*, YueMa, WentaoWang, YanpingXu, JunYou, YonghongZhang. A thermal and electrochemical properties research on gel polymer electrolyte membrane of lithium ion battery. Journal of Physics and Chemistry of Solids 2016, 99: 159-166 (SCI, IF=3.442)

2015:

  1. Libo Li*, Yue Ma, Jingchen Xie, Xiuchun Yang, Heng Wang, Haiyan Tian,Hongjing Mu, Wentao Wang Metallization process of a polyimide surface with palladium-Free activation for electronic field applications. Journal of Electronic Materials 2015, 44: 4042-4051 (SCI, IF=2.220)

  2. Libo Li*, Yue Ma, Guanxiong Gao, Heng Wang, Xiuchun Yang, Jingchen Xie. Pretreatment and deposition process of electroless Ni plating on polyimide film for electronic field applications. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2015, 477: 42-48 (SCI, IF=3.990)

2014:

  1. Libo Li*, Jiesi Li, Shuo Yang, Shaowen Guo, Peixia Yang Gel polymer electrolytes containing ionic liquids prepared by radical polymerization. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2014, 459: 136-141 (SCI, IF=3.990)

  2. Peixia Yang*, Lei Liu, Libo Li, Jun Hou Gel polymer electrolyte based on polyvinylidenefluoride-co-hexafluoropropylene and ionic liquid for lithium ion battery. Electrochimica Acta 2014, 115: 454-460 (SCI, IF=6.215)

2013:

  1. Libo Li*, Jiajia Wang, Peixia Yang, ShaowenGuo, Heng Wang Preparation and characterization of gel polymer electrolytes containing N-butyl-N-methylpyrrolidinium bis(trifluoromethanesulfonyl) imide ionic liquid for lithium ion batteries. Electrochimica Acta 2013, 88: 147-156 (SCI, IF=6.215)

  2. Libo Li*, Yan Ping Xu, Shuo Yang. Research on ternary electrolyte systems with N-butyl,methylpiperidinium bis((trifluoromethyl)sulfonyl)imide ionic liquid based on radical polymerization method for lithium ion battery. Journal of Electroanalytical Chemistry 2013, 708: 62-67 (SCI, IF=3.807)

2012:

  1. Lei Liu, Peixia Yang *, Libo Li, Ying Cui, Maozhong An. Application of bis(trifluoromethanesulfonyl)imide lithium–N-methyl-N-butylpiperidinium-bis(trifluoromethanesulfonyl)imide poly(vinylidene difluoride-co-hexafluoropropylene) ionic liquid gel polymer electrolytes in Li/LiFePO4 batteries at different temperatures. Electrochimica Acta. 2012, 85: 49-56. (SCI, IF=6.215)

  2. Peixia Yang *, Wenyu Cui, Libo Li, Lei Liu, MaoZhong An. Characterization and Properties of ternary P(VdF-HFP)-LiTFSI-EMITFSI ionic liquid polymer electrolytes. Solid State Sciences. 2012, 14: 598-606.SCI, IF=2.434

2011:

  1. Libo Li*, Bo Liu. Study of Ni-catalyst for electroless Ni–P deposition on glass fiber. Materials Chemistry and Physics 2011, 128: 303-310.SCI, IF=3.408

 

  1. 出版论著

  2. 安茂忠, 李丽波, 杨培霞. 电镀技术与应用, 机械工业出版社. 2007.

  3. 李丽波国绍文. 表面预处理手册, 机械工业出版社. 2014

 

  1. 代表性授权发明专利

  • 一种凝胶聚合物电解质膜的制备方法. 中华人民共和国发明专利 ZL20130559665.1

  • 制备CIS柔性薄膜太阳能电池的光吸收层的方法. 中华人民共和国发明专利 ZL201210369197.7

  • CuInSe2薄膜为基体电沉积制备太阳能电池缓冲层ZnS薄膜的方法. 中华人民共和国发明专利 ZL201210379774.0

  • 一种碱性锌酸盐镀光亮剂的制备方法. 中华人民共和国发明专利 ZL201210361877.4

  • CuInS2薄膜太阳能电池吸收层的制备方法. 中华人民共和国发明专利 ZL201310515757.X

  • 一种聚酰亚胺表面化学镀铜的方法. 中华人民共和国发明专利 ZL201310559664.7

  • 一种简便制备锂离子电池聚合物电解质薄膜的方法. 中华人民共和国发明专利 ZL201510542908.X

  • 一种电沉积制备n型半导体ZnO薄膜的方法. 中国 发明专利 ZL201710048551.9

  • 一种全固态环保型生物聚合物电解质膜的制备方法. 中华人民共和国发明专利 ZL201710747543.3

  • 一种碳钢常温磷化方法. 中华人民共和国发明专利 ZL20170862556.5

  • 一种高电导率的锂电池聚合物电解质的制备方法. 中华人民共和国发明专利 ZL201710219216.0

  • 一种锂离子的电池用固态聚合物电解质膜. 中华人民共和国发明专利 ZL201610814266.9

  • 一种低成本固体电解质薄膜. 中华人民共和国发明专利 ZL201710048494.4

  • 一种电沉积法制备的铜铟镓硒薄膜太阳能电池吸收层. 中华人民共和国发明专利 ZL201611252659.1

  • 一种无硒化过程非真空法制备的铜铟镓硒吸收层. 中华人民共和国发明专利 ZL201910013617X

  • 一种基于溶胶凝胶法制备的铜铟镓硒吸收层. 中华人民共和国发明专利 ZL2019100136131

  • 一种化学镀珍珠镍的镀液与方法. 中华人民共和国发明专利. ZL 2018107753715

  • 李丽波, 单宇航. 一种柔性电极-电解质一体化全固态锂硫电池的制备. 中华人民共和国发明专利.  ZL 2020103065291

  • 李丽波, 杜金田. 一种纤维素作为添加剂的聚合物电解质的制备方法. 中华人民共和国发明专利. ZL2020103065412

  • 李丽波, 谢明, 刘波. 一种全生物类固态聚合物电解质膜的制备方法. 中华人民共和国发明专利. ZL2018107346418

  • 李丽波, 周达, 单宇航, 杜金田, 翟墨. 一种基于原位聚合基体制备固态聚合物电解质薄膜的方法. 中华人民共和国发明专利. ZL 2019108456157

  • 李丽波, 崔文俊, 翟墨, 杜金田. 一种全非真空制备铜铟镓硒太阳能电池的方法. 中华人民共和国发明专利. ZL2020105842482

  • 李丽波, 龙沧海, 王福日, 由君. 一种基于相转移法的锂硫电池多孔碳正极材料的制备方法. ZL2018107754807   2022.05.20

  • 李丽波, 龙沧海, 王福日, 由君. 锂硫薄膜电池. 中华人民共和国发明专利. ZL2017108631570        

  • 李丽波, 单宇航, 杜金田, 翟墨. 一种以水为溶剂的生物聚合物电解质的制备方法. 中华人民共和国发明专利. ZL 2019102980261

  • 李丽波, 杜金田, 翟墨, 单宇航, 周达. 一种高锂离子迁移数的固态电解质膜的制备方法. 中华人民共和国发明专利. ZL2019107327892

  • 李丽波, 谢明, 龙沧海. 一种含生物材料的全固态聚合物电解质膜的制备方法. 中华人民共和国发明专利. ZL2018112919655

  • 李丽波, 杜金田, 赵芯, 谢明. 一种聚氯乙烯基聚合物电解质膜的制备方法. 中华人民共和国发明专利. ZL201810747765X

  • 李丽波, 杜金田, 翟墨, 谢明. 一种锂离子电池用大豆蛋白固态电解质膜的制备方法. 中华人民共和国发明专利. ZL2019104898469

  • 李丽波, 周达, 翟墨, 杜金田. 一种黏土增强聚合物固态电解质薄膜的制备方法. 中华人民共和国发明专利. ZL2019102980153

  • 李丽波, 龙沧海, 王福日, 由君. 一种准固态锂硫电池的多孔碳正极材料的制备方法. 中华人民共和国发明专利. ZL2018110076950

  • 李丽波, 单宇航, 杜金田, 翟墨, 周达. 一种大豆分离蛋白基高倍率锂硫电池正极材料制备方法. 中华人民共和国发明专利.  ZL2019105288732

  • 李丽波, 陈晓川, 单宇航, 崔文俊, 周达. 一种制备锂硫电池正极材料S/CeO2/多孔生物质碳的方法. 中华人民共和国发明专利. ZL 2020112589830

  • 李丽波,陈晓川,单宇航,崔文俊. 一种制备锂硫电池正极材料S/Fe3O4/MXene的方法. ZL1100233995

  • 李丽波,陈晓川,单宇航,崔文俊. 一种双刻蚀制备锂硫电池正极材料S/CeO2/断崖式形貌MXene的方法 中华人民共和国发明专利. ZL 2021104514165

  • 李丽波,杜金田,翟墨. 一种低温油墨法制备的铜铟镓硒吸收层. 中华人民共和国发明专利. ZL2020103191415