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邢丽丹 - 电化学研究所

留言板 时间:2019-01-13 浏览:

   姓名:邢李丹
技术职称:读经者

   探测生的培育:
Email:Email:xingld@


探测如行星或恒星:

自己自2007年以后,一向喜欢储能电极灵巧。/ELE构架与机能的参照系与试验探测。到眼前为止,已发行的宁愿作者与信息作者。SCI探测论文30余篇,包含国际这一如行星或恒星TOP日记Acc. Chem. Res.(1区),IF=1篇,J. Phys. Chem. 莱特。 (一区,IF=) 4, J. Power Sources (一区IF=) 8篇等。容量4论文在2017年度提议ESI高被新采用的东西文。作为次要完成的人经过。2013广东省理科与技术嘉奖头等奖(中),2017广东省理科技术奖(理科奖)。照顾了中外专题讨论会,并作了题目演讲。。掌管国家理科基金任务。、国家理科基金青年伸出、广东省理科基金自在适合等筹划某事。广东优良青年评选、广东专项筹划某事技术革新青年拔尖人才和G。

一、次要保持健康

1、综合性大学或以上学历、次要学术做零工、重要人物科研感受,得奖保持健康。

极力主张经验:

2007/9 - 2012/7,华南师范综合性大学,物理两人间的关系,博士

2010/9 - 2012/3, University of Utah, 公营公立学校协同培育博士生

2003/9 - 2007/7,华南师范综合性大学,两人间的关系,尚未交配的幼雄兽

作经验:

2013/4-2014/11,华南师范综合性大学,读经者

2014/12 到现在为止,华南师范综合性大学,副探测员,硕士研究生任大学导师

 人才课程:

2015 广州珠江理科与技术之星

2015广东特殊筹划某事 理科与技术革新青年人才

2017 广东优良青年

次要学术做零工:

ACS Appl. 马特。 Interfaces (假使 = 7.145, TOP日记,管理如行星或恒星1); J. Power Sources (假使 = TOP日记,管理如行星或恒星1); 电两人间的关系 Acta (假使=  TOP日记,管理如行星或恒星1); Phys. Chem. Chem. Phys. (假使= ,两个两人间的关系如行星或恒星兄弟会读者。

得奖保持健康

[1]. 李伟山,Liao情谊,徐孟庆,梁英,刘建生,李斌,张若欣,饶敏敏,李小平,邢李丹,周代营,陈春林,傅昭,张唇的,白风安,胶化多聚物隔板的设计与预备技术,2012 年, 广东省理科技术奖(发明奖)头等奖,广东内阁卡:[2013]1617号,筹划某事编号:B09-0-1-01-R01;

[2]李伟山,杨世和,朱永才,邓洪,邢李丹,徐孟庆,十亿分之一公尺塞满的受约束的详细叙述、构架及其在精神场击中要害运用权,2016年,广东省理科技术奖(自然地类)二等奖,广东内阁卡:[2016]3615号,筹划某事编号:A06-2-01-R05;

[3]. 邢李丹第十七届全国的电两人间的关系相识优良口头的考问方言, 2013年。

2、宣布的探测成果

代表论文和论文

宁愿作者与信息作者SCI论文:共15SCI论文,容量4ESI高被引证章(本宣言中提到的奢侈地援用的文字都是201766每日搜索归结为)11TOP-SCI地区性报纸。

[1].  利丹 Xing*, Xiongwen Zheng, Marshall Schroeder, Judith Alvarado, Arthur von Wald Cresce, Kang Xu* , Qianshu Li, and Weishan Li*, Deciphering the Ethylene CarbonatePropylene Carbonate Mystery in Li-Ion Batteries, Acc. Chem. Res., 51, 2018, 282289

[2].  桂明 Peng, 利丹 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

[3].  Kang Wang, 利丹 Xing*, Huozhen 智, Youxuan Cai, 智ming 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.

[4].  Huozhen 智, 利丹 Xing*, Xiongwen Zheng, Kang Xu, Weishan Li*, Understanding How Nitriles Stabilize Electrolyte/Electrode Interface at High Voltage, J. Phys. Chem. 莱特。 2017, 8, 6048−6052.

[5].  智ting Chen, Cun Wang, 利丹 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.

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

[7].  Jianhui Li, 利丹 Xing*, Jiawei Chen, Hebing Zhou, Mengqing Xu, Weishan Li, Improving High Voltage Interfacial and Structural Stability of Layered 富锂 Oxide Cathode by Using a Boracic Electrolyte Additive, J 电两人间的关系 SOC。 2016, 163:A2258-A2264

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

[9].  Zaisheng Wang, 利丹 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.

[10].       Qipeng Yu, 智ting Chen, 利丹 Xing*,东瑞 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.

[11].       Xianshu Wang, 利丹 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.

[12].       Jianhui Li, 利丹 Xing*, Ruiqin Zhang, Min Chen, Zaisheng Wang, Mengqing Xu, Weishan Li, 三(三异丙基苯硅)硼酸酯 as an electrolyte additive for improving interfacial stability of high voltage layered 富锂 oxide cathode/ carbonate- based electrolyte, J. Power Sources, 2015,285:360-366.

[13].       Wenna Huang, 利丹 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.

[14].       Haibin Lin, Weizhao Huang, Haibo Rong, Shaowei Mai, Jiana Hu, 利丹 Xing*, Mengqing Xu, Weishan Li*, Improving cyclic stability and rate capability of LiNi0.5MnO4 cathode via protective film and conductive polymer formed from thiophene, J Solid State Electrochem,2015,19:1123-1132.

[15].       Yating Wang, 利丹 Xing*, 仙文 Tang, Xiangfeng Li, Weishan Li*, Bin Li, Wenna Huang, Hebing Zhou, Xiaoping Li, Oxidative stability and reaction mechanism of lithium 双(草酸盐)硼酸酯 as a cathode film-forming additive for lithium ion batteries, RSC Adv., 2014,4:33301-33306.

[16].       Wenna Huang; 利丹 Xing*; Yating Wang; Mengqing Xu; Weishan Li*; 泛 Xie; 沈安 Xia, 4 -(三氟异丙基苯)-氰苯 A novel electrolyte additive for lithium nickel manganese oxide cathode of high voltage lithium ion battery, J. Power Sources,2014,267:560-565.

[17].       利丹 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, 电两人间的关系 Acta 2014, 133:117-122.

[18].       Yating Wang, 利丹 Xing*, Oleg Borodin, Wenna Huang, Mengqing Xu, Xiaoping Li, Weishan Li*, Quantum chemistry study of the 炽烈的导航 stability and decomposition of propylene 含充二氧化碳于 complexes, Phys. Chem. Chem. Phys.2014, 16: 6560-6567.

[19].       Jenel Vatamanu*, 利丹 Xing, Weishan Li, Dmitry Bedrov, Influence of temperature on the capacitance of ionic liquid electrolytes on charged 脸。 Phys .Chem. Chem. Phys. 2014, 16:5174-5182.

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

[21].       利丹 XingJenel Vatamanu*, Oleg Borodin, Dmitry Bedrov*, On the Atomistic Nature of Capacitance Enhancement Generated by Ionic Liquid Electrolyte Confined in Subnanometer 毛孔[j] J. Phys. Chem. 莱特。 2013,4: 132-140.

[22].       利丹 XingJenel Vatamanu*, Dmitry Bedrov*, Grant D Smith, 十亿分之一公尺颗粒化 of electrode surfaces as a route to improved energy storage in electrostatic 冷凝器[J] J. Phys. Chem. 莱特。 2012,3: 1124-1129.

[23].       利丹 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 探测[ J ] J. Phys. Chem. C. 2012,116:23871-23881.

[24].       利丹 XingOleg 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.

[25].       利丹 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 电池[J ] J. Power Sources, 2011,196: 7044-7047.

[26].       利丹 XingOleg Borodin, Grant Smith, Weishan, Li, A Density Function Theory Study of the Role of Anions on the Oxidative Decomposition Reaction of Propylene 充二氧化碳于〔J〕 J. Phys. Chem. A. 2011,115: 13896-13905.

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

[28].       利丹 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 电池[J ] J. Power Sources, 2009,189: 689-692.

[29].       利丹 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 运用。 [J] J. Phys. Chem. B. 2009,113:16596-16602.

[30].       邢李丹*,徐孟庆,李伟山*,高拉力锂水合氢电池电解的的探测进展[J],中国1971理科:两人间的关系,2014441289-1297

[31].       邢李丹*,杨茹,唐西安文,黄文娜,齐峰刘,彭玉琦,李伟山*,锂水合氢电池电解的系统Mo的密度泛函参照系探测-水合氢构架[J],电两人间的关系,201420547-552.

[32].       邢李丹,徐孟庆,王朝阳,李伟山*,优德体育,锂水合氢电池阴极的量子两人间的关系SEI膜探测的运用权[J],电源技术,2008132706-708.

英文著作:

[1] Mengqing Xu, 利丹 Xing, Weishan Li, Chapter 5 Electrolytes and Anode Interfacial chemistryof “Electrolytes for Lithium and Lihthium-Ion Batteries” , Edited by T. R. Jow, K. Xu, O. Borodin and M. Ue, Springer press, 2014, pp: 227-277.

使控制局势和运用权发明专利:

[1].   邢李丹,黄文娜,齐峰刘,徐孟庆,李伟山, 锂水合氢电池用高拉力充二氧化碳于基电解的及其预备使控制局势专利号:

[2].   邢李丹,王安电脑公司笙,齐峰刘,李伟山,硼酸复合在高拉力电解的增补击中要害运用权,专利适合号:

[3].   邢李丹,王再生,李健回,徐孟庆,李伟山,含刻薄话乙烯基酯的高拉力功用电解的,专利适合号:

[4].   邢李丹,王再生,李健回,徐孟庆,李伟山,容纳两种氟草酸硼酸锂的高拉力功用电解的,专利适合号:

[5].   邢李丹,王再生,李健回,徐孟庆,李伟山,容纳硼酸三异丙基苯酯AD的高拉力功用电解的,专利适合号:201610133703

[6].   邢李丹,王康,李伟山,田原袁,令人忧愁地过渡金属水合氢缺口锂水合氢电池的电解的,专利适合号:

[7].   邢李丹兰光远,李伟山,Liao情谊,徐孟庆,锂水合氢电池高稳定性电解的及其预备方式专利适合号:

[8].   邢李丹,郑钦峰,李伟山,Liao情谊,徐孟庆,高精神高中卫锂水合氢蝙蝠磺酰电解的,专利适合号:

 照顾中外专题讨论会:

[1].   邢李丹,锂水合氢电池电极/电解的接合特性的参照系与试验探测,十九分之一届全国的电两人间的关系相识,上海,2017年,题目方言

[2].   邢李丹,“Investigation on the Interfacial Stability of Electrode/ElectrolyteThe 2017 International Symposium for Advance Materials Research, Taiwan·Sun and Moon Lake2017Invited 演示。

[3].   邢李丹,“锂水合氢电池电解的炽烈的详细叙述机能及其令人忧愁地方式”,瞬间届全国的新能源与化学工程新塞满专题讨论会暨全国的精神替换与往事塞满讲习会,福建·厦门,2017年,大会方言

[4].   邢李丹,年轻一代锂水合氢电池电极/电解的接合失稳机能与电解的喝酒, 2016中国1971锂筹划某事最高级的,广东广州, 2016年,引诱方言

[5].   邢李丹,“Film-forming electrolyte additives to improve the electrochemical performances of high voltage lithium ion batteries”, International Conference on Electrochemical Energy Science and Technology, Kunming, Yunnan, 2016演示。

[6].   邢李丹Improving the energy density of electric double layer capacitors by 十亿分之一公尺颗粒化 the electrode surface: insights from simulation, 1st International Conference on Emerging Advanced Nanomaterials (ICEAN), Brisbane, Australia, 2012, Invited 演示。

[7].   邢李丹,锂水合氢电池用木馏油电解的/电极接合特性的参照系与试验探测,第十七届全国的电两人间的关系相识,苏州综合性大学,2013 年,口头的方言。

3. 掌管科研与人才工程:

[1]. 国家理科基金-面上筹划某事锂水合氢电池笔铅阴极的过渡金属水合氢存款/电解的撞击机能的参照系与试验探测,筹划某事编号:21573080万元,探测课题。

[2]. 广东优良青年基金,“电极/电解的接合特性的探测与运用权,筹划某事编号:2017B030306013100万,探测课题。

[3]. 国家理科基金-青年基金,高拉力锂水合氢电池阳极板/电解的中解决方法分子的构架与特性探测,筹划某事编号:2130306125,探测容量已完成的。,准绳结成绩。

[4]. 广东市理科基金收费运用权筹划某事,高拉力锂水合氢电池用磺酰电解的/电极相容性的参照系与试验探测,筹划某事编号:2014A03031342410万,探测课题。

[5]. 广东特殊容纳筹划某事理科与技术革新青年人才,筹划某事编号:2015TQ01N87030万,探测课题。

[6]. 广州珠江理科与技术之星专项,高中卫功用电解的塞满的设计与探测,筹划某事编号:20150601000730万,探测课题。

[7]. 高等院校博士探测生的专项探测基金,高拉力锂充二氧化碳于电解的塞满根底探测,筹划某事编号:201344071200094万,探测容量已完成的。,准绳结成绩。

个人简介: