职称:特聘副研究员/硕士生导师
电话:(028)85402819
邮箱:xiaolongli@scu.edu.cn
个人简介
李小龙,工学博士,四川大学高分子研究所特聘副研究员,硕士生导师。主要从事柔性可穿戴能源存储材料与器件先进加工方面的前沿和基础应用研究。主持国家自然科学基金青年基金,四川省自然科学基金面上基金,高分子材料工程国家重点实验室青年人才,四川大学引进人才等项目6项,是四川省青年科技创新研究团队,四川省重点研发计划,国家重点研发计划等多个项目研究骨干。在Adv. Mater.,Angew. Chem.,Adv. Energy Mater.,Energy Environ. Sci.,Adv. Funct. Mater.,Nano Energy,Energy Storage Materials,Adv. Sci.,Science Bulletin, Nano-micro letters等国际高水平期刊累计发表SCI论文49篇(其中IF>25论文10篇,IF>15论文26篇),ESI 0.1%热点论文3篇,ESI 1%高被引论文10篇,谷歌总引用次数4940次,单篇最高引用次数849次,h指数29,i10指数40。申请中国发明专利7项,已授权4项。获四川大学“学术新人奖”,第九届“德渥群芳”育人文化导师建设标兵团队,川渝科技学术大会优秀论文二等奖和三等奖,三项成果获四川大学重大基础研究成果奖,指导学生获第九届四川省国际“互联网+”大学生创新创业大赛省级银奖等奖项和荣誉。
工作经历
2021.08-至今四川大学高分子研究所特聘副研究员
教育背景
2018.10-2020.10澳大利亚伍伦贡大学,材料科学与工程,国家公派联合培养博士
2016.09-2021.04哈尔滨工业大学,化工与化学学院,化学工程与技术,博士
2014.09-2016.07 哈尔滨工业大学,海洋科学与技术学院,化学工程与技术,硕士
2009.09-2013.07 郑州轻工业大学,材料与化学工程学院,化学工程与工艺,学士
研究方向
1.柔性可穿戴能源存储器件
2.3D打印高性能高安全储能器件的开发与应用(锂/锌离子电池,金属离子电容器等)
3.柔性可穿戴智能传感器件
4.功能化能源存储器件(拉伸,压缩,纤维型等)
承担项目
1.3D打印高能量密度三维柔性锂离子电池及其致密化储能机制研究(52302106),国家自然科学基金青年基金项目, 2024.01-2026.12,主持
2.高安全高比能柔性锂离子电池致密化3D打印及其应用探索(2023NSFSC0418),四川省自然科学基金面上项目,2023.01-2024.12,主持
3.3D打印高能量密度柔性电极构筑及其超级电容性能研究(YJ202223),四川大学引进人才资助项目,2022.05 -2024.09,主持
4.致密化3D打印高能量密度柔性超级电容器及其电容性能研究(Sklpme2022-3-10),高分子材料工程国家重点实验室优秀青年人才项目,2022. 06-2023.12,主持
5.口腔伤口敷料用高粘附、低溶胀、高机械强度多功能水凝胶(SKLOD2023OF06),口腔疾病研究国家重点实验室开放课题项目,主持
6.顺丰锂电池阻燃产学研合作合同,深圳顺丰泰森控股(集团)有限公司横向项目(23H1184),2023.10-2026.04,主持
7.高分子功能材料和器件先进制造(2022JDTD0012),四川省青年科技创新研究团队项目,2022.01-2024.12,主研
8.大型风电叶片用高性能高分子材料研制(2023YFG0075),四川省重点研发项目,2023.01-2024.12,主研
9.面向新材料领域的科技服务Saas应用构建以及示范(2017YFB1401805),国家重点研发计划项目,2017.12-2020.11,主研
论文专著
发表SCI论文49篇,近5年代表性论文如下:
1.Shangwen Ling#,Xiaolong Li#(Co-first author), Tiantian Zhou, Ruoxin Yuan, Shuxian Sun, Hanna He, Chuhong Zhang*. Densifiable Ink Extrusion for Roll-To-Roll Fiber Lithium-Ion Batteries with Ultra-High Linear and Volumetric Energy Densities.Advanced Materials2023, 35, 2211201(IF=27.4)
2.Xiaolong Li, Shangwen Ling, Wanqiu Cao, Li Zeng, Ruoxin Yuan, Chuhong Zhang*. Surface Adaptive Capillarity Enabling Densified 3D Printing for Ultra-High Areal and Volumetric Energy Density Supercapacitors.Angewandte Chemie International Edition2022, 134, e202202663(IF=16.1)
3.Xiaolong Li, Shangwen Ling, Li Zeng, Hanna He, Xingang Liu, Chuhong Zhang*.Directional Freezing Assisted 3D Printing to Solve a Flexible Battery Dilemma: Ultrahigh Energy/Power Density and Uncompromised Mechanical Compliance.Advanced Energy Materials2022, 12, 2200233(IF=24.4)
4.Xiaolong Li, Libei Yuan, Rong Liu*, Hanna He, Junnan Hao, Yan Lu, Yuanming Wang, Gemeng Liang, Guohui Yuan*, Zaiping Guo*. Engineering Textile Electrode and Bacterial Cellulose Nanofiber Reinforced Hydrogel Electrolyte to Enable High-Performance Flexible All-Solid-State Supercapacitors.Advanced Energy Materials2021, 11, 2003010(IF=24.4,高被引论文)
5.Xiaolong Li, Rong Liu, Chunyang Xu, Yang Bai, Xiaoming Zhou, Yongji Wang, Guohui Yuan*.High-Performance Polypyrrole/Graphene/SnCl2Modifed Polyester Textile Electrodes and Yarn Electrodes for Wearable Energy Storage.Advanced Functional Materials2018, 28, 1800064(IF=18.5)
6.Xiaolong Li, Junnan Hao, Rong Liu*, Hanna He, Yuanming Wang, Gemeng Liang, Yang Liu, Guohui Yuan*, Zaiping Guo*. Interfacing MXene flakes on fiber fabric as an ultrafast electron transport layer for high performance textile electrodes,Energy Storage Materials2020, 33, 62-70.(IF=18.9)
7.Junnan Hao#,Xiaolong Li#(Co-first author), Xiaohui Zeng#, Jianfeng Mao, Zaiping Guo*, Deeply understanding the Zn anode behaviour and corresponding improvement strategies in different aqueous Zn-based batteries.Energy Environ. Sci.2020, 13(11), 3917-3949.(IF=32.4,高被引论文)
8.Lei Wang#,Xiaolong Li#(Co-first author), Rong Liu*, Yuanming Wang, Yang Bai, Yang Liu, Yu Ma, Guohui Yuan*, Zaiping Guo*. Protonic acid catalysis to generate fast electronic transport channels in O-functionalized carbon textile with enhanced energy storage capability.Nano Energy2020, 80, 105572.(IF=16.8)
9.Li Zeng, Shangwen Lin, Yu Du, Hanna He,Xiaolong Li*(通讯作者), and Chuhong Zhang*, Direct Ink Writing 3D Printing for High‐Performance Electrochemical Energy Storage Devices: A Minireview.Advanced Science2023, 10, 2303716.(IF=14.3)
10.Juannan Hao#,Xiaolong Li#(Co-first author), Xiaohe Song, Zaiping Guo*, Recent progress and perspectives on dual-ion batteries.EnergyChem, 2019, 1, 100004.(IF=22.2)
11.Tiantian Zhou, Shangwen Ling, Shuxian Sun, Ruoxin Yuan, Ziqin Wu, Mengyuan Fu, Hanna He,Xiaolong Li*(通讯作者), Chuhong Zhang*. 3D printing encouraging desired in-situ polypyrrole seed-polymerization for ultra-high energy density supercapacitors.Journal of Energy Chemistry2024, 95, 117-125.(IF=14.0,川大B刊)
12.Ruoxin Yuan, Shuxian Sun, Shangwen Lin, Tiantian Zhou, Hanna He,Xiaolong Li*(通讯作者), Chuhong Zhang*. Solvent exchange assisted 3D printing of low tortuosity thick electrode for high areal energy density and power density supercapacitors.Carbon2024, 218, 118737 (IF=10.9)
13.Haiyan Chen, Jingfeng Liu, Wanqiu Cao, Hanna He,Xiaolong Li*(通讯作者), Chuhong Zhang*. 3D printing CO2-activated carbon nanotubes host to promote sulfur loading for high areal capacity lithium-sulfur batteries.Nano Research2023, 16, 8281-8289 (IF=9.5)
14.Shuxian Sun, Ruoxin Yuan, Shangwen Ling, Tiantian Zhou, Ziqin Wu, Mengyuan Fu, Hanna He,Xiaolong Li*(通讯作者), Chuhong Zhang*. Self-Healable, Self-Adhesive and Degradable MXene-Based Multifunctional Hydrogel for Flexible Epidermal Sensors.ACS Applied Materials & Interfaces2024, 16, 7826-7837.(IF=8.3)
15.Wanqiu Cao, Shangwen Ling, Haiyan Chen, Hanna He,Xiaolong Li*(通讯作者), Chuhong Zhang*. 3D Printed Ultralight, Superelastic Reduced Graphene Oxide /Manganese Dioxide Foam for High Performance Compressible Supercapacitors.Industrial & Engineering Chemistry Research, 2022, 61, 10922-10930.(IF=3.8)
代表性专利
1.袁国辉,李小龙,刘荣,许春阳,白洋,刘杨,周晓明,王永吉,一种石墨烯织物电极或纱线电极的制备方法及在超级电容器中的应用,ZL 201810143025.5.
2.袁国辉,李小龙,刘荣,许春阳,白洋,刘杨,周晓明,王永吉,一种碳纳米管织物电极及纱线电极的制备方法及电极的应用,ZL 201810142005.6.
3.曹立新,李小龙,梁晨希,王凯,刘海萍,一种黄曲霉毒素B1金纳米井阵列免疫电极的制备方法,ZL 201610263224.0.
4.曹立新,梁晨希,李小龙,刘海萍,毕四富,金纳米井阵列电极及其制备方法,ZL 201610263223.6.
5.张楚虹,李小龙,凌尚文,周甜甜;一种应用于快速墨水挤出技术的可致密化功能电极墨水及其在制备纤维型电池中的应用,申请号:CN202211473302.1