邢丽丹 - 华南师范大学

个人简介

教育经历 2003.9-2007.7 华南师范大学化学与环境学院，化学专业，获理学学士学位； 2007.9-2012.7 华南师范大学化学与环境学院，物理化学专业，获理学博士学位； 2010.9-2012.3 University of Utah, 国家公派联合培养博士生工作经历 2013.4-2013.12 华南师范大学化学与环境学院，讲师； 2014.1-2019.12 华南师范大学化学与环境学院，副研究员； 2020.1-至今华南师范大学化学学院，教授；讲授课程: 本科生课程：《新型电池材料》，《专业英语》研究生课程：《应用电化学》，《界面化学》课题项目 [1]. 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，项目在研。 [2]. 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。 [3]. 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，项目在研。 [4]. 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,已完成研究内容，已结题。 [5]. 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。 [6]. “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。 [7]. 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。 [8]. 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。获奖情况 [1]. 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; [2]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; 入选人才情况 2017年广东省杰出青年 2016年“广东特支计划” 科技创新青年拔尖人才 2015年广州市珠江科技新星论著 [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.

近期论文

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[1]. Mingzhu Liu, Lidan Xing*, Kang Xu, Hebin 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 Materials, 2020, 26, 32-39 [2]. 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, Journal of Alloys and Compounds, 2020, 821,153236. [3]. Wenguang Zhang, Lidan Xing*, Jiawei Chen, Hebin Zhou, Shimin Liang, Weiyi Huang, Weishan Li, Improving the cyclic stability of MoO2 anode for sodium ion batteries via film-forming electrolyte additive, Journal of Alloys and Compounds,2020,822,153530. [1]. 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 [2]. 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. [3]. 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. [4]. Guangyuan Lan, Hebing Zhou, Lidan Xing*, Jiawei Chen, Zifei Li, Rude Guo, Yanxia Che, Weishan Li, Insight into the interaction between Ni-rich LiNi0.8Co0.1Mn 0.1O2 cathode and BF4--introducing electrolyte at 4.5 V high voltage, Journal of Energy Chemistry,2019, 39,235-243. [1]. 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 [2]. 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. [3]. Jiawei Chen, Lidan Xing*, Xuerui Yang, Xiang Liu, Tiejun Li, Weishan Li*, Outstanding electrochemical performance of high-voltage LiNi1/3Co1/3Mn1/3O2 cathode achieved by application of LiPO2F2 electrolyte additive, Electrochimica Acta 290 (2018) 568-576 [4]. Guiming Peng, Lidan Xing, Jesffls Barrio, Michael Volokh, 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 [5]. 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, Electrochimica Acta 2018,262,226-232. [6]. 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. [1]. 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. [2]. 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, Electrochimica Acta 249 (2017) 353–359. [3]. 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. [1]. 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 [2]. 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. [3]. 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. [1]. 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. [2]. 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. [3]. 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. [4]. 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. [5]. Haibin Lin, Weizhao Huang, Haibo Rong, Shaowei Mai, Jiana Hu, Lidan Xing*, Mengqing Xu, Weishan Li*, Improving cyclic stability and rate capability of LiNi0.5Mn1.5O4 cathode via protective film and conductive polymer formed from thiophene, J Solid State Electrochem,2015,19:1123-1132. [1]. 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. [2]. 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. [3]. 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. [4]. 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. [5]. 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. [30]. 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. [31]. 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]. J. Phys. Chem. Lett. 2013,4: 132-140. [32]. Lidan Xing，Jenel Vatamanu*, Dmitry Bedrov*, Grant D Smith, Nanopatterning of electrode surfaces as a route to improved energy storage in electrostatic capacitors[J]. J. Phys. Chem. Lett. 2012,3: 1124-1129. 20 [33]. 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. 21 [34]. 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 [35]. 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 [36]. 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 [37]. 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 [38]. 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 [39]. 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. [40]. 邢丽丹*，许梦清，李伟善*，高压锂离子电池电解液的研究进展，中国科学：化学，2014，44：1289-129727 [41]. 邢丽丹*，杨茹，唐贤文，黄文娜，刘其峰，余启鹏，李伟善*，密度泛函理论方法研究锂离子电池电解液体系分子-离子结构[J]，电化学，2014，20：547-552. [42]. 邢丽丹，许梦清，王朝阳，李伟善*，袁中直，量子化学在锂离子电池负极SEI膜研究中的应用[J]，电源技术，2008，132：706-708.

个人简介

研究领域

近期论文