一、基本情况
阳立,男,湖南永州人,1990年4月出生,湖南科技大学beat365手机版官方网站正规专任教师,博士,校聘副教授,硕士研究生导师(招生专业:材料与化工专业学位)。为本科生讲授《应用电化学》、《电池工艺学》等课程,主要研究方向为锂离子固体电解质及固态电池,高比能锂电池材料。目前在国际知名刊物如Ceramics International,ACS Applied Materials & Interfaces,Small, Sustainable Materials and Technologies,Chemical Engineering Journal,Journal of Alloys and Compounds, ACS Applied Energy Materials发表SCI论文30余篇,其中以第一作者或通讯作者发表高水平论文6篇(含1篇ESI高被引论文),以第二作者发表SCI论文9篇。曾获第六届全国固态离子学青年学术交流会优秀论文奖。申请国家发明专利3项。
联系方式:yangli@hnust.edu.cn
二、主要经历
2023/03-至今 湖南科技大学beat365手机版官方网站正规,校聘副教授
2022/04-至今 湖南科技大学beat365手机版官方网站正规,专任教师
2017/09-2021/12 湘潭大学应用化学专业,博士(导师:王先友教授,俄罗斯工程院外籍院士)
2016/03-2017/03 湘潭大学党委宣传部,新媒体工作室,行政工作
2012/09-2016/01 华东理工大学物理化学专业,硕士(导师:胡军教授)
2008/09-2012/06 湘潭大学材料化学专业,学士(导师:裴勇教授,国家优青)
三、研究方向
1. 锆酸镧锂(LLZO)等锂离子固态电解质的制备及应用;
2. 高比能锂电池材料及器件如锂金属固态电池;
3. 新型高安全固态电池如氟离子固态电池、钠固态电池。
四、研究项目与平台建设
1. 教育部重点实验室开放基金项目:兼具高电导率和高稳定性的石榴石型电解质粉末应用于复合固态电解质构建固态电池研究, 项目编号:23HJYH08, 2023/01-2025/01,主持,在研。
2. 湖南省研究生科研创新项目:新型高离子电导率的石榴石型固态电解质及其复合电解质的制备及性能研究. 项目编号:CX2018B369,2018/10-2020/06,主持,结题。
3. 耒阳市京山化工有限公司电子级硫酸锰提纯产学研项目,主要参与,结题。
五、研究成果论文
[1] Yang, L.; Dai, Q. S.; Liu, L.; Shao, D. S.; Luo, K. L.; Jamil, S.; Liu, H.; Luo, Z. G.; Chang, B. B.; Wang, X. Y. Rapid sintering method for highly conductive Li7La3Zr2O12 ceramic electrolyte. Ceramics International 2020, 46 (8), 10917-10924. (中科院1区, Top期刊, ESI高被引论文)
[2] Yang, L.; Tao, X.; Huang, X.; Zou, C.; Yi, L.; Chen, X.; Zang, Z.; Luo, Z.; Wang, X. Efficient Mutual-Compensating Li-Loss Strategy toward Highly Conductive Garnet Ceramics for Li-Metal Solid-State Batteries. ACS Applied Materials & Interfaces 2021, 13 (47), 56054-56063. (中科院2区, Top期刊)
[3] Yang, L.; Huang, X.; Zou, C.; Tao, X.; Liu, L.; Luo, K.; Zeng, P.; Dai, Q.; Li, Y.; Yi, L.; Luo, Z.; Wang, X. Rapid preparation and performances of garnet electrolyte with sintering aids for solid-state Li-S battery. Ceramics International 2021, 47 (13), 18196-18204. (中科院1区, Top期刊)
[4] Jiali Liu, Lingguang Yi, Xiaoyi Chen, Dongdu Li, Shuhan Ni, Jingcheng Xia, Li Yang*, Xianyou Wang*, Studies on fluoride ion conductivity of the mechanochemically synthesized β-KSbF4 for all-solid-state fluoride-ion batteries, Sustainable Materials and Technologies, 39, ppe0081, 2024. (中科院2区)
[5] Zou, C.; Zang, Z.; Tao, X.; Yi, L.; Chen, X.; Zhang, X.; Yang, L.*; Liu, X.; Wang, X.*, Stabilized Cathode/Sulfide Electrolyte Interface through Conformally Interfacial Nanocoating for All-Solid-State Batteries. ACS Applied Energy Materials 2023, 6 (6), 3599-3607,
[6] Zou, C.; Yang, L.; Zang, Z.; Tao, X.; Yi, L.; Chen, X.; Liu, X.; Zhang, X.; Wang, X., LiAlO2-coated LiNi0.8Co0.1Mn0.1O2 and chlorine-rich argyrodite enabling high-performance all-solid-state lithium batteries at suitable stack pressure. Ceramics International 2023, 49 (1), 443-449.(中科院1区, Top期刊)
[7] Shao, D.; Yang, L.; Luo, K.; Chen, M.; Zeng, P.; Liu, H.; Liu, L.; Chang, B.; Luo, Z.; Wang, X. Preparation and performances of the modified gel composite electrolyte for application of quasi-solid-state lithium sulfur battery. Chemical Engineering Journal 2020, 389, 124300. (中科院1区, Top期刊)
[8] Tao, X.; Yang, L.; Liu, J.; Zang, Z.; Zeng, P.; Zou, C.; Yi, L.; Chen, X.; Liu, X.; Wang, X., Preparation and performances of gallium-doped LLZO electrolyte with high ionic conductivity by rapid ultra-high-temperature sintering. Journal of Alloys and Compounds 2023, 937, 168380.
[9] Zou, C.; Yang, L.; Luo, K.; Liu, L.; Tao, X.; Yi, L.; Liu, X.; Zhang, X.; Wang, X., In Situ Formed Protective Layer: Toward a More Stable Interface between the Lithium Metal Anode and Li6PS5Cl Solid Electrolyte. ACS Applied Energy Materials 2022, 5 (7), 8428-8436.
[10] Liu, L.; Yang, L.; Shao, D.; Luo, K.; Zou, C.; Luo, Z.; Wang, X. Nd3+ doped BaSnF4 solid electrolyte for advanced room-temperature solid-state fluoride ion batteries. Ceramics International 2020, 46 (12), 20521-20528. (中科院1区, Top期刊)
[11] Li, X.; Yang, L.; Shao, D.; Luo, K.; Liu, L.; Wu, Z.; Luo, Z.; Wang, X. Preparation and application of poly(ethylene oxide)-based all solid-state electrolyte with a walnut-like SiO2 as nano-fillers. Journal of Applied Polymer Science 2019, 137 (24), 48810.
[12] Liu, L.; Yang, L.; Liu, M.; Wang, X.; Li, X.; Shao, D.; Luo, K.; Luo, Z.; Chen, G. A flexible tysonite-type La0.95Ba0.05F2.95@PEO-based composite electrolyte for the application of advanced fluoride ion battery. Journal of Energy Storage 2019, 25, 100886,.
[13] Liu, L.; Yang, L.; Liu, M.; Li, X.; Shao, D.; Luo, K.; Wang, X.; Luo, Z. SnF2-based fluoride ion electrolytes MSnF4 (M = Ba, Pb) for the application of room-temperature solid-state fluoride ion batteries. Journal of Alloys and Compounds 2019, 819, 152983.
[14] Zou, C.; Yang, L.; Luo, K.; Liu, L.; Tao, X.; Yi, L.; Liu, X.; Luo, Z.; Wang, X. Preparation and performances of poly (ethylene oxide)-Li6PS5Cl composite polymer electrolyte for all-solid-state lithium batteries. Journal of Electroanalytical Chemistry 2021, 900, 115739.
[15] 余雷; 王瑞娟; 田俐; 阳立*, 3D集流体在锂金属电池中的应用研究进展. 人工晶体学报 2023, 52 (06), 1086-1099.
六、国家发明专利
[1] 一种基于锡基氟化物MSnF层状氟离子电解质的室温固态氟离子电池的制备方法.CN201910153815.6.
[2] 一种基于Nd3+和/或Eu3+掺杂的电解质及其制备方法和一种室温固态氟离子电池. CN202010139056.0.
[3] 一种基于氟离子穿梭的全固态氟离子电池的制备方法.CN201811265077.6.
七、奖励与荣誉
[1] Rapid ultra-high-temperature sintering method for high conductive garnet-type solid electrolyte(第一作者). 第六届全国固态离子学青年学术交流会优秀论文奖,2021年。