李艳

李艳  老师简历

 

 

院系：金沙js9线路中心矿物加工工程系

职务/职称：校聘教授

E-mail: li-yan@usc.edu.cn

 

教育经历（从大学本科开始，按时间倒排序）：

2015/09-2018/07，中南大学，冶金与环境工程学院博士

2012/09—2015/07，中南大学，冶金与环境工程学院，硕士 

2008/09—2012/07，中南大学，冶金与环境工程学院，学士

 

 

工作经历（科研与学术工作经历，按时间倒排序）：

2020.10-至今 南华大学 资环安学院 特聘教授

2018/07-2020/10 深圳大学 微纳光电子学院 博士后

 

发表论文：

[1] Li T, Chen Z, Bai F, Li C, Li Y^*. Diluted low concentration electrolyte for interphase stabilization of high-voltage LiNi_0.5Mn_1.5O₄ cathode. J. Energy Chem., 2023:83. 404-409. [SCI, 一区，IF=11.03]

[2] Li T, Zhou Y, Chen Z, Li Y^*. Spray pyrolysis technology-based closed-loop for regenerating single-crystal cathodes from spent lithium-ion batteries [J].Green Chem., 2023, 25, 4022-4028 [SCI, 一区，IF=13.599]

[3] Chen Z, Wang B, Li Y, et al. Stable Solvent-Derived Inorganic-Rich Solid Electrolyte Interphase [SEI] for High-Voltage Lithium-Metal Batteries [J]. ACS applied materials & interfaces, 2022[24]:14. 28014-28020.（JCR1区, IF = 10.383）

[4] Bai F, Li Y, et al. Targeted Stabilization of Solid Electrolyte Interphase and Cathode Electrolyte Interphase in High-Voltage Lithium-Metal Batteries by an Asymmetric Sustained-Release Strategy [J]. Journal of Power Sources，2022:548,232045. （JCR1区, IF = 9.79）

[5] Li C, Li Y, et al. Hybrid diluents enable localized high-concentration electrolyte with balanced performance for high-voltage lithium-metal batteries, Chinese Chemical Letters, 2022, 107852. （JCR1区, IF = 8.455）

[6] Li Y, Wang R, et al. Emerging two-dimensional noncarbon nanomaterials for flexible lithium-ion batteries: opportunities and challenges [J]. Journal of Materials Chemistry A, 2019, 7, 25227-25246.（JCR1区, IF = 10.66）

[7] Li Y, Wang R, et al. Flexible Li[Li_0.2Ni_0.13Co_0.13Mn_0.54]O₂/carbon nanotubes/nanofibrillated celluloses composite electrode for high-performance lithium-ion battery [J]. Frontiers in Chemistry, 2019, 7, 25227-25246.（JCR1区, IF = 3.51）

[8] Li Y, Li X, et al.. A novel hierarchical precursor of densely integrated hydroxide nanoflakes on oxide microspheres toward high-performance layered Ni-rich cathode for lithium ion batteries [J]. Materials Chemistry Frontiers, 2018, 2: 1822-1828. （JCR1区, IF = 8.68）

[9] Li Y, Li X, et al. One-step synthesis of Li-doped NiO as high-performance anode material for lithium ion batteries[J]. Ceramics International, 2016, 42:14565-14572. （JCR1区, IF = 3.5）

[10] Li Y, Li X, et al. Distinct impact of cobalt salt type on the morphology, microstructure, and electrochemical properties of Co₃O₄, synthesized by ultrasonic spray pyrolysis[J]. Journal of Alloys & Compounds, 2017, 696:836-843. （JCR1区, IF = 4.12）

[11] Li Y, Li X, et al. Spray pyrolysis synthesis of nickel-rich layered cathodes LiNi_1−2xCo_xMn_xO₂ [x = 0.075, 0.05, 0.025] for lithium-ion batteries[J]. Journal of Energy Chemistry, 2018,27: 447-450. （JCR1区,IF = 4.65）

[12] Li Y, Li X, et al. An Ostwald ripening route towards Ni-rich layered cathode material with cobalt-rich surface for lithium ion battery [J]. Science China Materials, 2017:1-9. （JCR1区,IF = 3.956）

 

专利:

[1] 王志兴，李艳等，一种改性氧化镍负极材料及其制备方法，CN105514421B 

[2] 王志兴，李艳等，一种具有富钴表层的高镍正极材料及其制备方法和应用，CN106898751B 

[3] 王志兴，李艳等，一种微米级单晶镍酸锂及其制备方法和应用，CN106946296B 

[4] 王接喜，李艳等，三元正极材料、其前驱体及该材料和前驱体的制备方法，CN107585794A