师资队伍

理学博士，教授，物理化学博士生导师

国家特支计划（第六批）青年拔尖人才

广东省自然科学杰出青年基金获得者

广东省女职工创新工作室领衔人

广东特支计划科技创新青年拔尖人才

广州市珠江科技新星

高能高安全性动力锂离子电池电解液及隔膜材料与制备技术国家地方联合工程研究中心主任

广东省动力与储能电池材料工程技术研究中心主任

2007.09-2012.07，华南师范大学，物理化学博士（硕博连读）

2010.09-2012.03，University of Utah，国家公派联合培养博士生

2003.09-2007.07，华南师范大学，化学学士

2019.12至今，华南师范大学，教授

2014.12-2019.11，华南师范大学，副研究员

2013.04-2014.11，华南师范大学，讲师

《新型电池材料》本科生课程，《电化学基础实验》本科生实验课程，《二次电池电解液》和《电极过程动力学》研究生理论课程等

1. 国家自然科学基金-面上项目，“5V砜基电解液组分调控与界面机制研究”，项目编号：22379046，2024.01~2027.12，50万元，在研

2. 国家特支计划青年拔尖人才项目，“国家特支计划青年拔尖人才”，项目编号：涉密，2022.01~2024.12，140万元，在研

3. 国家自然科学基金-面上项目，“钠离子电池硬碳负极/碳酸酯基电解液界面性质的研究”，项目编号：21972049，2020.01~2023.12，64万元，已结题

4. 国家自然科学基金-面上项目，“过渡金属离子沉积对锂离子电池石墨负极/电解液界面性质影响机理的理论与实验研究”，项目编号：21573080，2016.01~2019.12，77.2万元，已结题

5. 广东省杰出青年基金，“电极/电解液界面性质的研究及应用”，项目编号：2017B030306013，2017.05~2021.05，100万，已结题

6. 广东省产学研合作项目，“面向高电压动力锂离子电池用电解液的开发及产业化”，项目编号：2017B090901020，2017.01~2019.12，40/100万（广东金光高科股份有限公司），已结题

7. 国家自然科学基金-青年基金，“高压锂离子电池正极/电解液界面溶剂分子构型及其性质研究”，项目编号：21303061，2014.01~2016.12，25万, 已结题

8. 广东省自然科学基金自由申请项目，“高压锂离子电池砜基电解液/电极相容性的理论和实验研究”，项目编号：2014A030313424，2014.10~2017.10，10万，已结题

9. “广东特支计划”科技创新青年拔尖人才，项目编号：2015TQ01N870，2016.6~2019.5，30万，已结题

10. 广州市珠江科技新星专项，“高安全高能锂离子电池功能电解质材料的设计与研究”，项目编号：201506010007，2015.1~2017.12，30万，已结题

11. 高等学校博士学科点专项科研基金，“高压锂离子电池碳酸酯基电解质材料基础研究”，项目编号：20134407120009，2014.01~2016.12，4万，已结题

12. 通用汽车（中国）投资有限公司横向项目，“高电压LiNi_0.75Mn_0.25O₂ (NM75) 电解液添加剂开发”等项目，2020.04~2025.05，在研

13. 华为技术有限公司横向项目，“先进高能电池电解液材料理论计算”，2021.01~2023.12，已结题

14. 广东金光高科股份有限公司横向项目，“三元高镍（Ni≥60%）高电压（4.5V）电解液的开发”，2023.04~2024.04，已结题

1. 邢丽丹， “2024年第二届《电化学》期刊编委突出贡献奖”，2024年，编委突出贡献奖，《电化学》编辑部、中国化学会电化学委员会;

2. 邢丽丹，“2022年度第二届广东省材料研究学会青年科技奖”，2022年，广东省材料研究学会青年科技奖，广东省材料研究学会;

3. 李伟善，杨世和，丘勇才，邓洪，邢丽丹，许梦清，“纳米材料的可控合成、结构及其能源领域的应用”，2016年，广东省科学技术奖(自然类)二等奖，粤府证：[2016]3615号，项目编号：A06-2-01-R05;

4. 李伟善，廖友好，许梦清，梁英，刘建生，李斌，张若昕，饶睦敏，李小平，邢丽丹，周代营，谭春林，傅昭，张利萍，冯岸柏，“锂离子电池凝胶聚合物隔膜及功能电解质的设计与制备技术”，2012年， 广东省科学技术奖(发明奖)一等奖，粤府证：[2013]1617号，项目编号：B09-0-1-01-R10;

《电化学》期刊青年编委会委员

广东省基础与应用基础研究基金委员会第一届学科咨询专家组专家

中国电池工业协会第八届理事常务理事

1. 一种高功能密度一次电池电解液及其制备方法和应用，ZL201911149237.5，2021-10-08

2. 一种全固态锂离子电池及其原位制备方法，ZL201810562363.2，2020-04-14

3. 一种高稳定性锂离子电池电解液及其制备方法与应用，ZL201711082311.7，2020-04-24

4. 一种锂离子电池高电压碳酸酯基电解液及其制备方法与应用，ZL201310520628.X，2016-08-17

英文论著

1.  Lidan Xing, Weishan Li, Chapter 6 “Liquid Non-aqueous Electrolytes for High Voltage Lithium Ion Batteries” of “Future Lithium-ion Batteries”, Edited by Ali Eftekhari, RSC Publishing, 2019

2. Mengqing Xu, Lidan Xing, Weishan Li, Chapter 5 “Electrolytes and Anode Interfacial chemistry”of “Electrolytes for Lithium and Lihthium-Ion Batteries” , Edited by T. R. Jow, K. Xu, O. Borodin and M. Ue, Springer press, 2014, p: 227-277.

论文发表

1. Ziqi Wei, Dewen Kong, Lijiao Quan, Jiarong He, Jingyuan Liu, Ziyuan Tang, Si Chen, Qinqin Cai, Ruiqin Zhang*, Haijing Liu*, Kang Xu*, Lidan Xing*, Weishan Li, Removing electrochemical constraints on polytetrafluoroethylene as dry-process binder for high-loading graphite anodes, Joule, 2024, 8: 1350–1363

2. Yili Chen, Zhangyating Xie, Lingling Huang, Jiaqi Zhan, Ziqi Wei, Jiarong He*, Lidan Xing* , Weishan Li, Revolutionizing multifunctional electrolyte additive design and synthesis for high-voltage nickel-rich batteries in diverse climates, Energy Storage Mater., 2024, 71: 103642

3. Jiaqi Zhan, Mingzhu Liu, Yutian Xie, Jiarong He, Hebing Zhou, Lidan Xing*, Weishan Li, Suppression of Co(II) ion deposition and hazards: Regulation of SEI film composition and structure, J. Energy Chem., 2024, 89: 259-265

4. Zekai Ma, Zhangyating Xie, Jiawei Liu, Jenel Vatamanu*, Lidan Xing*, Weishan Li, Co-solvent and additive synergy for expansive electrochemical range and low-temperature aqueous batteries, Energy Storage Mater., 2024, 65: 103203

5. Haojun Wu, Zhangyating Xie, Guanjie Li, Lei Zheng, Zhiwei Zhao, Jiarong. He, Yanbin Shen, Jiahao Hu, Zhangquan Peng, Guiming Zhong, Lidan Xing*, Weishan Li, Tackling application limitations of high-safety γ-butyrolactone electrolytes: Exploring mechanisms and proposing solutions, J. Energy Chem., 2024, 93:193-201

6. Xiaoyan Lin, Yili Chen, Yuling Fu, Fanghong Zeng, Yutong Kuai, Jizheng Lin, Jiarong He*, Lidan Xing*, Weishan Li, Fluorinated Thiophene-based electrolyte additives enable a robust cathode electrolyte interphase with conformal homogeneity for a high-voltage LiNi_0.8Co_0.15Al_0.05O₂ cathode, J. Phys. Chem. C, 2024, 128: 4988−4996

7. Ziyuan Tang, Zhangyating Xie, Qinqin Cai, Zhiyong Xia, Qiurong Chen, Wentao Liang, Jiarong He, Lidan Xing*, Weishan Li, Unlocking superior safety, rate capability, and low-temperature performances in LiFePO₄ power batteries, Energy Storage Mater., 2024, 67: 103309

8. Wenguang Zhang, Fanghong Zeng, Huijuan Huang, Yan Yu, Mengqing Xu*, Lidan Xing* , Weishan Li, Enhanced interphasial stability of hard carbon for sodium-ion battery via film-forming electrolyte additive, Nano research, 2023, 16: 3823-3831

9. Lijiao Quan, Qili Su, Haojun Wu, Weiyi Huang, Mingzhu Liu, Yong Lu, Zhe Li*, Haijing Liu*, Lidan Xing* , Weishan Li, All-climate outstanding-performances lithium-ion batteries enabled by in-situ constructed gel polymer electrolytes, Chem. Eng. J., 2023, 454: 140086

10. Qinqin Cai, Hao Jia, Guanjie Li, Zhangyating Xie, Xintao Zhou, Zekai Ma, Lidan Xing* , Weishan Li, Outstanding performances of graphite||NMC622 pouch cells enabled by a non-inert diluent, J. Energy Chem., 2023, 81: 593-602

11. Fanghong Zeng, Lidan Xing* , Wenguang Zhang, Zhangyating Xie, Mingzhu Liu, Xiaoyan Lin, Guangxia Tang, Changyong Mo, Weishan Li, Innovative discontinuous-SEI constructed in ether-based electrolyte to maximize the capacity of hard carbon anode, J. Energy Chem., 2023, 79: 459-467

12. Yuanqin Li, Mingzhu Liu, Kang Wang, Chengfeng Li, Ying Lu, Aditya Choudhary, Taylor Ottley, Dmitry Bedrov*, Lidan Xing* , Weishan Li*, Single-solvent-based electrolyte enabling a high-voltage lithium-metal battery with long cycle life, Adv. Energy Mater., 2023, 2300918

13. Xiaoyan Lin, Fanghong Zeng, Jialuo Lin, Wenguang Zhang, Xianggui Zhou, Lijiao Quan, Shu Yang, Jiarong He*, Lidan Xing* , Weishan Li, B-/Si-containing electrolyte additive efficiently establish a stable interface for high-voltage LiCoO₂ cathode and its synergistic effect on LiCoO2/graphite pouch cells, J. Colloid Interf. Sci., 2023, 642: 292-303

14. Zhangyating Xie, Jiarong He, Zhiyong Xia, Qinqin Cai, Ziyuan Tang, Jie Cai, Yili Chen, Xiaoqing Li ,Yingzhu Fan, Lidan Xing* , Yanbin Shen, Weishan Li, Synergistic interphase modification with dual electrolyte additives to boost cycle stability of high nickel cathode for all-climate battery, J. Energy Chem., 2023, 86: 197-207

15. 占佳琦，邢丽丹*, 锂离子电池正极材料过渡金属离子溶出的危害及抑制研究, 材料研究与应用, 2023, 17(5): 902-911

16. Zekai Ma, Jiawei Chen, Jenel Vatamanu, Oleg Borodin, Dmitry Bedrov, Xianggui Zhou, Wenguang Zhang, Weishan Li, Kang Xu*, Lidan Xing* , Expanding the low-temperature and high-voltage limits of aqueous lithium-ion battery, Energy Storage Mater., 2022, 45: 903-910

17. Qinfeng Zheng, Guanjie Li, Xiongwen Zheng, Lidan Xing* , Kang Xu, Weishan Li, Sulfolane-graphite incompatibility and its mitigation in Li-ion batteries, Energy Environ. Mater., 2022, 5: 906–911

18. Xuehuan Luo, Lidan Xing* , Jenel Vatamanu, Jiawei Chen, Jiakun Chen, Mingzhu Liu, Cun Wang, Kang Xu, Weishan Li, Inhibiting manganese (II) from catalyzing electrolyte decomposition in lithium-ion batteries, J. Energy Chem., 2022, 65: 1-8

19. Qiming Xie, Jiawei Chen, Lidan Xing* , Xianggui Zhou, Zekai Ma, Binhong Wu, Yilong Lin, Hebin Zhou, Weishan Li, Revealing the critical effect of solid electrolyte interphase on the deposition and detriment of Co(Ⅱ) ions to graphite anode, J. Energy Chem., 2022, 69: 389-396

20. Guanjie Li, Zifei Li, Qinqin Cai, Chong Yan, Lidan Xing* , Weishan Li, Construction of low-impedance and high-passivated interphase for nickel-rich cathode by low-cost boron-containing electrolyte additive, ChemSusChem, 2022, 15: e202200543

21. Mingzhu Liu, Jenel Vatamanu, Xinli Chen, Lidan Xing*, Kang Xu*, Weishan Li, Hydrolysis of LiPF₆‑containing electrolyte at high voltage, ACS Energy Lett., 2021, 6: 2096-2102

22. Zekai Ma, Huiyang Chen, Hebing Zhou*, Lidan Xing* , Weishan Li, Cost-efficient film-forming additive for high-voltage lithium–nickel–manganese oxide cathodes, ACS Omega, 2021, 6(46): 31330–31338

23. Mingzhu Liu, Lidan Xing*, Kang Xu, Hebing Zhou, Jianlian Lan, Cun Wang, Weishan Li, Deciphering the paradox between the Co-intercalation of sodium-solvent into graphite and its irreversible capacity, Energy Storage Mater., 2020, 26: 32-39

24. Wenguang Zhang, Lidan Xing*, Jiawei Chen, Hebing Zhou, Shimin Liang, Weiyi Huang, Weishan Li, Improving the cyclic stability of MoO₂ anode for sodium ion batteries via film-forming electrolyte additive, J. Alloy. Compd., 2020, 822: 153530

25. Guangyuan Lan, Lidan Xing*, Dmitry Bedrov, Jiawei Chen, Rude Guo, Yanxia Che, Zifei Li, Hebin Zhou, Weishan Li, Enhanced cyclic stability of Ni-rich lithium ion battery with electrolyte film-forming additive, J. Alloy. Compd., 2020, 821: 153236

26. Yanxia Che, Xiuyi Lin, Lidan Xing*,, Xiongcong Guan, Rude Guo, Guangyuan Lan, Qinfeng Zheng, Wenguang Zhang, Weishan Li*, Protective electrode/electrolyte interphases for high energy lithium-ion batteries with p-toluenesulfonyl fluoride electrolyte additive, J. Energy Chem., 2020, 52(2021): 361-371

27. Zifei Li, Xiuyi Lin, Hebing Zhou*, Lidan Xing*, Guangyuan Lan, Wenguang Zhang, Jiawei Chen, Mingzhu Liu, Qiming Huang, Weishan Li, Stabilizing the interphasial layer of Ni-rich cathode and graphite anode for lithium ion battery with multifunctional additive, J. Power Sources, 2020, 467: 228343

28. 邢丽丹*, 谢启明, 李伟善，电解液及其界面电化学性质的机理研究进展，物理学报，2020，69(22): 228205

29. Jiawei Chen, Jenel Vatamanu, Lidan Xing*, Oleg Borodin, Huiyang Chen, Xiongcong Guan, Xiang Liu, Kang Xu*, Weishan Li, Improving Electrochemical Stability and Low-Temperature Performance with Water/Acetonitrile Hybrid Electrolytes, Adv. Energy Mater. 2019, 1902654

30. Cun Wang, Lidan Xing*, Jenel Vatamanu, Zhi Chen, Guangyuan Lan, Weishan Li, Kang Xu*, Overlooked electrolyte destabilization by manganese (II) in lithium-ion batteries, Nat. Commun., 2019, 10,3423.

31. Kang Wang, Lidan Xing*, Kang Xu, Hebing Zhou, Weishan Li, Understanding and Suppressing the Destructive Cobalt (Ⅱ) Species in Graphite Interphase, ACS Appl. Mater. Interfaces 2019, 11, 31490-31498.

32. Guangyuan Lan, Hebing Zhou, Lidan Xing*, Jiawei Chen, Zifei Li, Rude Guo, Yanxia Che, Weishan Li, Insight into the interaction between Ni-rich LiNi_0.8Co_0.1Mn _0.1O₂ cathode and BF₄^--introducing electrolyte at 4.5 V high voltage, J Energy Chem. 2019, 39,235-243.

33. Jianhui Li, Lidan Xing*, Zaisheng Wang, Wenqiang Tu, Xuerui Yang, Yilong Lin, Yuqing Liao, Mengqing Xu, Weishan Li*, Insight into the capacity fading of layered lithium rich oxides and its suppression via a film-forming electrolyte additive, RSC Adv., 2018, 8, 25794-25801.

34. Jiawei Chen, Lidan Xing*, Xuerui Yang, Xiang Liu, Tiejun Li, Weishan Li*, Outstanding electrochemical performance of high-voltage LiNi_1/3Co_1/3Mn_1/3O₂ cathode achieved by application of LiPO₂F₂ electrolyte additive, Electrochim. Acta 290 (2018) 568-576

35. Qinfeng Zheng, Lidan Xing*, Xuerui Yang, Xiangfeng Li, Changchun Ye, Kang Wang, Qiming Huang, Weishan Li*, N‑Allyl‑N,N‑Bis(trimethylsilyl)amine as a Novel Electrolyte Additive To Enhance the Interfacial Stability of a Ni-Rich Electrode for Lithium-Ion Batteries, ACS Appl. Mater. Interfaces 2018, 10, 16843-16851.

36. Lidan Xing*∥, Xiongwen Zheng∥, Marshall Schroeder, Judith Alvarado, Arthur von Wald Cresce, Kang Xu* , Qianshu Li, and Weishan Li*, Deciphering the Ethylene Carbonate–Propylene Carbonate Mystery in Li-Ion Batteries, Acc. Chem. Res., 51, 2018, 282–289

37. Guiming Peng, Lidan Xing, Jesffls Barrio, Michael Volokh, and Menny Shalom*, A General Synthesis of Porous Carbon Nitride Films with Tunable Surface Area and Photophysical Properties, Angew. Chem. Int. Ed. 57, 2018, 1186 –1192

38. Kang Wang, Lidan Xing*, Huozhen Zhi, Youxuan Cai, Zhiming Yan, Dandan Cai, Hebing Zhou, Weishan Li**，High stability graphite/electrolyte interface created by a novel electrolyte additive: A theoretical and experimental study, Electrochim. Acta 2018,262,226-232.

39. Huozhen Zhi, Lidan Xing*, Xiongwen Zheng, Kang Xu, Weishan Li*, Understanding How Nitriles Stabilize Electrolyte/Electrode Interface at High Voltage, J. Phys. Chem. Lett. 2017, 8, 6048−6052.

40. Zhiting Chen, Cun Wang, Lidan Xing, Xianshu Wang, Wenqiang Tu, Yunmin Zhu, Weishan Li, Borate electrolyte additives for high voltage lithium nickel manganese oxide electrode: A comparative study, Electrochim. Acta 249 (2017) 353–359.

41. Kang Wang, Lidan Xing, Yunmin Zhu, Xiongwen Zheng, Dandan Cai, Weishan Li, A comparative study of Si-containing electrolyte additives for lithium ion battery: Which one is better and why is it better, J. Power Sources, 342 (2017) 677-684.  

42. Jianhui Li, Lidan Xing, Jiawei Chen, Hebing Zhou, Mengqing Xu, Weishan Li, Improving High Voltage Interfacial and Structural Stability of Layered Lithium-Rich Oxide Cathode by Using a Boracic Electrolyte Additive, J Electrochem. Soc. 2016, 163:A2258-A2264

43. Wenqiang Tu, Lidan Xing*, Pan Xia, Mengqing Xu, Youhao Liao, Weishan Li*,Dimethylacetamide as a film-forming additive for improving the cyclic stability of high voltage lithium-rich cathode at room and elevated temperature, Electrochim. Acta 2016, 204:192-198.

44. Zaisheng Wang, Lidan Xing*, Jianhui Li, Mengqing Xu, Weishan Li, Triethylborate as an electrolyte additive for high voltage layered lithium nickel cobalt manganese oxide cathode of lithium ion battery, J. Power Sources, 2016,307:587-592.

45. Qipeng Yu, Zhiting Chen, Lidan Xing*, Dongrui Chen, Haibo Rong, Qifeng Liu, Weishan Li*, Enhanced high voltage performances of layered lithium nickel cobalt manganese oxide cathode by using trimethylboroxine as electrolyte additive, Electrochim. Acta 2015, 176:919-925.

46. Xianshu Wang, Lidan Xing*, Xiaolin Liao, Xiaofen Chen, Wenna Huang, Qipeng Yu, Mengqing Xu, Qiming Huang, Weishan Li*, Improving cyclic stability of lithium cobalt oxide based lithium ion battery at high voltage by using trimethylboroxine as an electrolyte additive, Electrochim. Acta 2015, 173: 804-811.

47. Jianhui Li, Lidan Xing*, Ruiqin Zhang, Min Chen, Zaisheng Wang, Mengqing Xu, Weishan Li, Tris(trimethylsilyl)borate as an electrolyte additive for improving interfacial stability of high voltage layered lithium-rich oxide cathode/ carbonate- based electrolyte, J. Power Sources, 2015,285:360-366. 

48. Wenna Huang, Lidan Xing*, Ruiqin Zhang **, Xianshu Wang, Weishan Li*, A novel electrolyte additive for improving the interfacial stability of high voltage lithium nickel manganese oxide cathode, J. Power Sources, 2015,293:71-77.

49. Haibin Lin, Weizhao Huang, Haibo Rong, Shaowei Mai, Jiana Hu, Lidan Xing*, Mengqing Xu, Weishan Li*, Improving cyclic stability and rate capability of LiNi_0.5Mn_1.5O₄ cathode via protective film and conductive polymer formed from thiophene, J Solid State Electrochem,2015,19:1123-1132.

50. Yating Wang, Lidan Xing*, Xianwen Tang, Xiangfeng Li, Weishan Li*, Bin Li, Wenna Huang, Hebing Zhou, Xiaoping Li, Oxidative stability and reaction mechanism of lithium bis(oxalate)borate as a cathode film-forming additive for lithium ion batteries, RSC Adv., 2014,4:33301-33306. 

51. Wenna Huang; Lidan Xing*; Yating Wang; Mengqing Xu; Weishan Li*; Fengchao Xie; Shengan Xia, 4-(Trifluoromethyl)-benzonitrile: A novel electrolyte additive for lithium nickel manganese oxide cathode of high voltage lithium ion battery, J. Power Sources,2014,267:560-565.

52. Lidan Xing*, Wenqiang Tu, Jenel Vatamanu, Qifeng Liu, Wenna Huang, Yating Wang, Hebing Zhou, Ronghua Zeng, Weishan Li*, On anodic stability and decomposition mechanism of sulfone in high-voltage lithium ion battery, Electrochem. Acta 2014, 133:117-122.

53. Yating Wang, Lidan Xing*, Oleg Borodin, Wenna Huang, Mengqing Xu, Xiaoping Li, Weishan Li*, Quantum chemistry study of the oxidation-induced stability and decomposition of propylene carbonate-containing complexes, Phys. Chem. Chem. Phys.2014, 16: 6560-6567.

54. Jenel Vatamanu*, Lidan Xing, Weishan Li, Dmitry Bedrov, Influence of temperature on the capacitance of ionic liquid electrolytes on charged surfaces. Phys .Chem. Chem. Phys. 2014, 16:5174-5182.

55. Yating Wang, Lidan Xing*, Weishan Li*, and Dmitry Bedrov, Why Do Sulfone-Based Electrolytes Show Stability at High Voltages? Insight from Density Functional Theory, J. Phys. Chem. Lett. 2013, 4:3992-3999.

56. Lidan Xing，Jenel Vatamanu*, Oleg Borodin, Dmitry Bedrov*, On the Atomistic Nature of Capacitance Enhancement Generated by Ionic Liquid Electrolyte Confined in Subnanometer Pores. J. Phys. Chem. Lett. 2013,4: 132-140. 

57. Lidan Xing，Jenel Vatamanu*, Dmitry Bedrov*, Grant D Smith, Nanopatterning of electrode surfaces as a route to improved energy storage in electrostatic capacitors. J. Phys. Chem. Lett. 2012,3: 1124-1129. 

58. Lidan Xing, Jenel Vatamanu, Dmitry Bedrova, Oleg Borodin, Grant D Smith, Electrode/ Electrolyte Interface in Sulfolane-Based Electrolytes for Li Ion Batteries: A Molecular Dynamics Simulation Study[J]. J. Phys. Chem. C. 2012,116:23871-23881.

59. Lidan Xing，Oleg Borodin, Oxidation induced decomposition of ethylene carbonate from DFT calculations - importance of explicitly treating surrounding solvent [J]. Phys. Chem. Chem. Phys. 2012,14:12838-12843. 22

60. Lidan Xing, Weishan Li, Mengqing Xu, Tiantian Li, Liu Zhou, The reductive mechanism of ethylene sulfite as solid electrolyte interface film forming additive for lithium ion battery[J]. J. Power Sources, 2011,196: 7044-7047. 23

61. Lidan Xing, Oleg Borodin, Grant Smith, Weishan, Li, A Density Function Theory Study of the Role of Anions on the Oxidative Decomposition Reaction of Propylene Carbonate[J] J. Phys. Chem. A. 2011,115: 13896-13905. 24

62. Lidan Xing, Chaoyang Wang, Weishan Li, Mengqing Xu, Xuliang Meng, Shaofei Zhao, Theoretical insight into oxidative decomposition of propylene carbonate in the lithium ion battery[J]. J. Phys. Chem. B. 2009,113:5181-5187. 25

63. Lidan Xing, Chaoyang Wang, Mengqing Xu, Weishan Li, Zongping Cai, Theoretical study on reduction mechanism of 13 benzodioxol 2 one for the formation of solid electrolyte interface on anode of lithium ion battery[J]. J. Power Sources, 2009,189: 689-692.26

64. Lidan Xing, Weishan Li, Chaoyang Wang, Mengqing Xu, Chunlin Tan, Jin Yi, Theoretical investigations on oxidative stability of solvents and oxidative decomposition mechanism of ethylene carbonate for lithium-ion battery use. [J] J. Phys. Chem. B. 2009,113:16596-16602.

欢迎对电化学储能材料与技术感兴趣的同学、博士后及青年英才等加入研究团队！