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车辆工程

[栗欢欢]

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个人简介:

姓名: 栗欢欢

性别: 女

职称: 教授,博士生导师

教育经历:

2018.7-2019.7,美国马里兰大学,化学与分子工程系,美国顶级电池研究中心,访问研究员,合作导师,王春生教授;

2009.9-2012.6,南开大学,化学学院,博士,导师:程鹏教授;

2006.9-2009.6,南开大学,新能源材料研究所,硕士;

2002.6-2006.6,廊坊师范学院,化学与材料科学学院,学士;

工作经历:

2012年7月至今,在江苏大学汽车工程研究院、汽车与交通工程学院从事教学科研工作。

研究方向:

【主讲课程】

研究生课程:车辆动力电源系统。

本科生课程:新能源汽车技术、纯电动汽车系统;电池与电化学、动力电池及其管理系统;新能源汽车动力电池技术。

校公开课程:电动化时代动力电池的现状与未来。

【研究方向】

(1) 车辆动力电源系统研究:BMS及热管理系统研发,解决动力电池单体、模块及系统控制关键技术;

(2) 动力电池寿命预测、梯次利用及安全性分析:动力电池的寿命预测、健康状态与安全性评估及梯次利用等关键技术;

(3) 车载动力电池测试、检测研究:车辆动力电池系统的性能测试、建模仿真以及与整车的集成优化关键技术;

(4) 高比能动力锂离子电池研究开发:高电压、高能量密度的新型高电压锂离子电池等关键技术;

(5) 新型动力电池体系研究开发:新型电池体系如燃料电池、全固态锂电池、金属-空气电池、钠离子电池等关键技术。

学术兼职:

某电动汽车动力电池公司高级技术顾问、中国化学会会员、IEEE会员、美国化学会ACS会员、中国汽车工程学会会员、江苏省动力电池专委会会员、10余个国际知名SCI期刊审稿人

科研项目:

(1) 江苏省自然基金面上项目(BK20201426):基于共价连接聚合物-锂离子液体@MOFs固体电解质的构筑及其全固态电池性能研究,2020.7-2023.6,主持;

(2) 产学研合作项目(20180409):特种电芯设计与性能分析,2018.9-2020.09,主持;

(3) 江苏省六大人才高峰项目(XNYQC-003):新能源汽车用复合动力锂离子电池的电化学估算理论与应用研究,2017.12-2020.12, 主持;

(4) 校企合作项目(20160403):锂离子电池动力电池管理系统开发,2016.12-2019.3,主持;

(5) 江苏大学“青年骨干教师培养工程”青年学术带头人培育项目,2015.12-2019.12,主持;

(6) 江苏省科技成果转化专项资金1项(BA2016162):大容量三元锂离子电池动力电源系统研发及产业化,2016-2019,合作;

(7) 国家自然基金(21501071):高效锂空气电池用石墨烯/酞菁基MOFs复合空气电极的构建及其性能研究,2016.01-2018.12,主持;

(8) 江苏省科技支撑计划(重点项目,BE2014008-2):新型富锂锰基高电压动力电池正极材料的研发与应用,2014.06-2017.06,主持;

(9) 中国博士后基金面上资助项目(2014M561577):原位合成多级结构多孔氧化物/碳复合材料及其储锂性能,2014.05-2016.04,主持;

(10) 江苏省自然基金项目(青年项目,BK20130482):基于金属-有机框架构筑多孔过渡金属氧化物/碳复合材料及其储锂性能研究,2013.07-2016.06,主持;

(11) 江苏省高校自然科学研究面上项目(13KJB430008):多孔过渡金属氧化物/碳负极材料的制备与储锂性能研究,2013.08-2015.12,主持;

(12) 江苏大学高级人才科研启动基金(13JDG071), 主持;

(13) 江苏省科技支撑计划(重点项目,BE2014008):新能源汽车新型富锂锰基高电压动力电池及管理系统研发与应用,2014.06-2017.06,主要完成人;

(14) 国家自然基金(E050201):基于分层动态优化控制的纯电动汽车复合能源汽车动力系统能量管理策略研究,2012.01-2014.12,主要完成人;

(15) 江苏省科技型企业技术创新基金:基于成分变化的LiMnxFe1-xPO4/C高电压正极材料的开发及应用,2014.6-2017.6,主要完成人;

(16) 江苏省自然基金项目(青年项目):新型锂离子电池负极材料MS2(M=W、V)/石墨烯的合成及性能研究(BK2012293), 2012.07-2015.06,主要完成人。

成果奖励:

2020年,江苏省科学技术三等奖,车用高比能动力电源系统关键技术研究与工程应用;

2019年,中国机械工业科学技术奖三等奖,大容量高比能锂离子电池动力电源系统关键技术研究与工程应用;

2016年,江苏省科学技术三等奖,新能源汽车用高能锂离子电池动力电源系统关键技术研究与应用;

2016年,江苏省“六大人才高峰”高层次人才培养对象(B类);

2015年,江苏大学“青年骨干教师培养工程”青年学术带头人培育人选;

2015年,江苏省科学技术二等奖,纯电动汽车核心技术及关键零部件研究与应用;

2015年,江苏大学优秀学业导师;

2014年,江苏大学优秀工作者。

代表论著:

(1) Huanhuan Li, Ashwani Saini, Chengyang Liu, Jufeng Yang, Yaping Wang, Tao Yang, Chaofeng Pan, Long Chen, Haobin Jiang, Electrochemical and thermal characteristics of prismatic lithium-ion battery based on a three-dimensional electrochemical-thermal coupled model, J Energy Storage, 42 (2021) 102976.

(2) Huanhuan Li, Huayang Sun, Kui Wang, Yaping Wang, Nan Wang, Xiaoxin Lv, Haobin Jiang and Long Chen,Ultrafine molybdenum oxycarbide nanodots encapsulated in N,P co-doped carbon nanofibers as an advanced anode material for lithium-ion batteries, Nanotechnology 2021, 32, 295601 (10pp)

(3) Huanhuan Li, Yijie Wang, Zhengjian Gu, Yaping Wang, Chaofeng Pan, Long Chen, Haobin Jiang, Electrochemical-thermal coupled model for the optimal design of a liquid cooling module of a cylindrical lithium-ion battery, Int. J. Electrochem. Sci., 2021, 16, 210326.

(4) Huanhuan Li, Weining Rao, Zhengjian Gu, Yaping Wang, Nan Wang, Xiaoxin Lv, Biao Chen, Haobin Jiang, Long Chen, Nano-grinding derived high-performance Li1.2Ni0.13Co0.13Mn0.54O2 cathode material: from kilogram-scale synthesis to its pouch cell, Ionics, 2021, 27, 491–506.

(5) Kui Wang, Kangjia Zhao, Yaping Wang, Huanhuan Li*, Haobin Jiang, Long Chen, N,S co-doped carbon confined MnO/MnS heterostructures derived from a one-step pyrolysis of Mn-methionine frameworks for advanced lithium storage, J. Alloys Compd. 2021, 860, 158451.

(6) Yaping Wang, Kangjia Zhao, Kui Wang, Huanhuan Li, Haobin Jiang, Long Chen, N-doped carbon confined Na3V2(PO4)3 derived from an organophosphonic acid as a high-performance cathode for sodiumion batteries, J. Alloys Compd. 2020, 844, 156118.

(7) Huanhuan Li, Yuqiang Zhu, Kangjia Zhao, Qi, Fu, Kui Wang, Yaping Wang , Nan Wang, Xiaoxin Lv, Haobin Jiang, Long Chen, Surface modification of coordination polymers to enable the construction of CoP/N,P-codoped carbon nanowires towards high-performance lithium storage, J. Colloid Interface Sci., 2020, 565, 503–512.

(8) Huanhuan Li, Xiaoyu Wang, Ashwani Saini, Yuqiang Zhu, Ya-Ping Wang, State of Charge Estimation for Lithium-Ion Battery Models Based on a Thermoelectric Coupling Model, Int. J. Electrochem. Sci., 15 (2020) 3807 – 3824.

(9) Huan-Huan Li, Ashwani Saini, Ru-Yu Xu, Nan Wang, Xiao-Xin Lv, Ya-Ping Wang, Tao Yang, Long Chen, Hao-Bin Jiang, Hierarchical Fe3O4@C nanofoams derived from metal–organic frameworks for high-performance lithium storage

(10) Biao Chen , Haobin Jiang, Huayang Sun, Mingpeng Yu, Jufeng Yang, Huanhuan Li*, Yaping Wang, Long Chen, Chaofeng Pan, A new gas–liquid dynamics model towards robust state of charge estimation of lithium-ion batteries, 2020, 29, 101343.

(11) Huanhuan Li, Chengyang Liu, Ashwani Saini, Yaping Wang*,Haobin Jiang,Tao Yang,Long Chen,Chaofeng Pan,Huaping Shen,Coupling multi-physics simulation and response surface methodology for the thermal optimization of ternary prismatic lithium-ion battery, Journal of Power Sources, 2019, 438, 226974.

(12) Huanhuan Li, Wang Zhang, Xinrong Yang, Haobin Jiang, Yaping Wang*, Tao Yang,Long Chen, Huaping Shen,State of charge estimation for lithium-ion battery using an electrochemical model based on electrical double layer effect,Electrochimica Acta, 2019,326,134966.

(13) Long Chen, Ruyu Xu, Weining Rao, Huanhuan Li*, Ya-Ping Wang, Tao Yang, Hao-Bin Jiang, Electrochemical Model Parameter Identification of Lithium-Ion Battery with Temperature and Current Dependence, Int. J. Electrochem. Sci.,2019,14,4124-4143.

(14) Yiming Sun, Zhikun Zhang, Huanhuan Li, Tao Yang, Hongzhou Zhang,* Xixi Shi,* Dawei Song, Lianqi Zhang, Influence of Ni/Mn distributions on the structure and electrochemical properties of Ni-rich cathode Materials, Dalton Trans., 2018, 47, 16651-16659.

(15) Yaping Wang, Qi Fu, Chuan Li, Huanhuan Li*, Hua Tang*, Nitrogen and Phosphorus Dual-Doped Graphene Aerogel Confined Monodisperse Iron Phosphide Nanodots as an Ultrafast and Long-Term Cycling Anode Material for Sodium-Ion Batteries. ACS Sustainable Chem. Eng. 2018, 6, 15083-150.

(16) Haobin Jiang, Biao Chen, Jianmei Pan, Chuan Li, Chengyang Liu, Liang Liu, Tao Yang, Wei Li, Huanhuan Li*, Yaping Wang*, Long Chen, Min Chen, Strongly coupled FeP@reduced graphene oxide nanocomposites with superior performance for lithium-ion batteries, J. Alloys Compd., 2017,728, 328-336.

(17) Yuanchao Chun, Bingjian Wang, Houzhong Zhang, Long Chen, Huanhuan Li*, State-of-charge estimation of lithium-ion battery based on a novel reduced order electrochemical model, Int. J. Electrochem. Sci., 2018, 13, 1131-1146.

(18) Chuan Li, Qi Fu, Kangjia Zhao, Yaping Wang*, Hua Tang*, Huanhuan Li*, Haobin Jiang, Long Chen, Nitrogen and phosphorous dual-doped graphene aerogel as an ultrafast and long-term cycling anode material for sodium-ion batteries, Carbon, Carbon, 2018, 139, 1117-1125.

(19) Xin Zhang, Chengyi Wang, Huanhuan Li, Xin-Gai Wang, Ya-Nan Chen, Zhaojun Xie *, Zhen Zhou, High performance Li–CO2 batteries with NiO–CNT cathodes, J. Mater. Chem. A, 2018, 6, 2792-2796.

(20) Yaping Wang, Huanhuan Li*, Min Chen*, Xiaoliang Yang, Deli Jiang, Synthesis and electrochemical performance of LiFePO4/C cathode materials from Fe2O3 for high-power lithium-ion batteries, Ionics, 2017, 23, 377–384.

(21) Ya-Ping Wang, Xiao-Ying Li, Huan-Huan Li*, Hou-Zhong Zhang, Heng-Yu Sun, Qi Guo,Han Li, Zheng Niu, A novel 3D Nd(III)metal-organic frameworks based on furan-2,5-dicarboxylic acid exhibits new topology and rare near-infrared luminescence property, Inorg. Chem. Commun., 2016, 70, 27–30.

(22) Huanhuan Li, Ruyu Xu, Yaping Wang*, Binbin Qian, Hongbo Wang, Long Chen, Haobin Jiang, Yulu Yanga, Yiyun Xua, In situ synthesis of hierarchical mesoporous Fe3O4 nanowires derived from coordination polymers for high-performance lithium-ion batteries, RSC Adv., 2014, 4, 51960–51965.

(23) Yaping Wang, Binbin Qian, Huanhuan Li*, Liang Liu, Long Chen, Haobin Jiang, VSe2/graphene nanocomposites as anode materials for lithium-ion batteries. Mater. Lett., 2015, 141, 35-38.

(24) Yaping Wang, Yijing Wang*, Huanhuan Li*, Zongtao Liu, Lili Zhang, Haobin Jiang, Ming Zhou, Baojia Li, Naifei Ren, Facile synthesis of Co2P via the reduction of phosphate with KBH4 for nickel-based rechargeable batteries, J. Alloys Comp. 2015, 623,

(25) Huanhuan Li, Yi Chen, Long Chen, Haobin Jiang, Yaping Wang*, Hongbo Wang, Guochun Li, Yunxing Li, Yuan Yuan, Improved cycling and high rate performance of core-shell LiFe1/3Mn1/3Co1/3PO4/carbon nanocomposites for lithium-ion batteries: Effect of the carbon source, Electrochimica Acta, 2014, 143, 407-414.

(26) Huanhuan Li, Yunxing Li, Long Chen, Haobin Jiang, Jinping Wei, Hongbo Wang, Yaping Wang*, Microwave assisted synthesis of core–shell LiFe1/3Mn1/3Co1/3PO4/C nanocomposite cathode for high-performance lithium-ion batteries J. Alloys Comp. 2014, 617, 154–159.

(27) Huanhuan Li, Yaping Wang*, Xiaoliang Yang, Liang Liu, Long Chen, Jinping Wei*, Improved electrochemical performance of 5 V LiCoPO4 cathode materials via yttrium doping. Solid State Ionics 2014, 255, 84-88.

(28) Huanhuan Li, Fei Yang*, Yaping Wang, Long Chen, Haobin Jiang, Crystal structure and electrochemical performance of La0.75Ce0.25Ni3.46Al0.17Mn0.04Co1.33 alloy for high-power-type 29 Ah Ni-MH battery, J Rare Earth. 2015, 33, 633–638.

(29) Huan-Huan Li, Zheng Niu, Long Chen,* Hao-Bin Jiang, Ya-Ping Wang,* Peng Cheng, Three luminescent metal-organic frameworks constructed from trinuclear zinc(II) clusters and furan-2,5-dicarboxylate. CrystEngComm, 2015, 17, 5101–5109.

(30) Huan-Huan Li, Han Li, Zheng Niu, Ya-PingWang,* Structural diversity of two novel Dy(III) metal-organic frameworks based on binuclear nodes with furan-2,5-dicarboxylic acid: Crystal structures and luminescent properties, Inorg. Chem. Commun. 2015, 55, 103–107.

(31) Huanhuan Li, Wei Shi*, Kaina Zhao, Han Li, Yanmin Bin, Peng Cheng*. High Selective Sorption and Luminescent Sensing of Small Molecules Demonstrated in a Multifunctional Lanthanide Microporous Metal-Organic Framework Containing 1D Honeycomb-Type Channels. Chem.-Eur. J. 2013, 19(10), 3358-3365.

(32) Huanhuan Li, Wei Shi*, Kaina Zhao, Zheng Niu, Xitong Chen and Peng Cheng*. A Robust Porous Metal-Organic Material with New Topology Structure Demonstrating Pronounced Porosity and High-Efficiency Sorption/Selectivity Properties of Small Molecules.Chem.-Eur. J. 2012, 18(18), 5715-5723.

(33) Huanhuan Li, Wei Shi*, Kaina Zhao, Han Li, Yanmin Bin, Peng Cheng*. Enhanced Hydrostability in Ni-doped MOF-5. Inorg. Chem. 2012, 51(17) 9200−9207.

(34) HuanHuan Li, Wei Shi*, Na Xu, Tian Han, Zheng Niu, Zhi Chen, Peng Cheng*. Structural Diversity of Four Metal-Organic Frameworks Based on Linear Homo/Heterotrinuclear Nodes with Furan-2,5-dicarboxylic Acid: Crystal Structures, Luminescent and Magnetic Properties. Cryst. Growth Des. 2012, 12(5), 2602-2612.

(35) Huanhuan Li, Zheng Niu, Tian Han, ZhenJie Zhang, Wei Shi, Cheng Peng*. A microporous lanthanide metal-organic framework containing channels: Synthesis, structure, gas adsorption and magnetic properties. Sci. China. Chem. 2011, 54(9) 1423-1429.

(36) H. H. Li, J. Jin, J. P. Wei*, Z. Zhou, J. Yan. Fast synthesis of core-shell LiCoPO4/C nanocomposite via microwave heating and its electrochemical Li intercalation performances. Electrochem. Commun. 2009, 11(1), 95-98.

(37) Jingmin Zhou, Huanhuan Li, Huan Zhang, Huimin Li, Wei Shi, Peng Cheng A Bimetallic Lanthanide Metal-Organic Material as a Self[1]Calibrating Color-Gradient Luminescent Sensor, Adv. Mater. 2015, 27, 7072–7077.

(38) Yaping Wang, Lili Zhang, Huanhuan Li, Yijing Wang*, Lifang Jiao, Huatang Yuan, Long Chen, Hua Tang, Xiaofei Yang Solid state synthesis of Fe2P nanoparticles as high-performance anode materials for nickel-based rechargeable batteries. J. Power Sources 2014, 253, 360-365.

(39) Yaping Wang, Huanhuan Li, Yijing Wang,* Lifang Jiao, Huatang Yuan. Self-assembled Fe-B nanochains: facile synthesis, magnetic and electrochemical properties. Mater. Lett. 2014, 121, 40-43.

(40) Ping Cui, Yu-Guang Ma, Huan-Huan Li, Bin Zhao*, Jian-Rong Li, Peng Cheng, Perla B. Balbuena*, Hong-Cai Zhou.MultipointInteractionsEnhanced CO2 Uptake: A Zeolite-like Zinc-Tetrazole Framework with 24-Nuclear Zinc Cages. J. Am. Chem. Soc. 2012, 134(46), 18892-18895.

(41) M. Yang, J. X. Li, H. H. Li, L.W. Su, J. P. Wei, Z. Zhou*. Mesoporous slit-structured NiO for high-performance pseudocapacitors. Phys. Chem. Chem. Phys. 2012, 14(31), 11048-11052.

(42) Yang Fei, Xiangcheng Kong, Zhu Wu, Huanhuan Li, V.K. Peterson. In Situ Neutron-Diffraction Studies on the Structure change of Ti34V32Cr16Mn18 alloy during Hydrogen Storage Process. J. Power Sources 2013, 241, 355-358.

(43) Zheng-Jie Zhang, Wei Shi*, Zheng Niu, Huan-Huan Li, Bin Zhao, Peng Cheng*, Dai-Zheng Liao and Shi-Ping Yan. A New Type of Polyhedron-based Metal-Organic Frameworks with Interpenetrating Cationic and Anionic Nets Demonstrating Ion Exchange, Adsorption and Luminescent Properties. Chem. Commun. 2011, 47(22), 6425-6427.

(44) Liang Wen, Wei Shi*, Xitong Chen, Huanhuan Li, Peng Cheng*. A Porous Metal-Organic Framework Based on Triazoledicarboxylate Ligands-Synthesis, Structure, and Gas-Sorption Studies. Eur. J. Inorg. Chem. 2012, 2012(12), 3562-3568.

(45)栗欢欢, 孙化阳, 陈彪, 王亚平, 基于GLD电池模型和FFRLS-EKF算法的SOC估测, 电源技术,2021, 10.

(46) 栗欢欢,竺玉强,王效宇,裴磊*, 熵热系数取值方式对锂离子电池 热模型精度的影响, 2021, 35(5), 1-8.

(47) 江浩斌,张旺,陈龙,栗欢欢*, 基于双电层结构的锂离子电池电化学建模, 电池, 2018, 48, 244-248.

(48) 陈龙, 李海君, 陈敏, 栗欢欢*, LiCoPO4正极材料掺Zn2+及全电池特性, 电池, 2018, 48, 90-94.

(49) 陈龙,李海君,杨桃,栗欢欢*, 内阻取值方式对锂电池热模型精度的影响, 重庆理工大学学报, 2018, 32(6), 1-7.

(50) 栗欢欢,杨晓亮,魏进平,周震,阎杰。锰离子掺杂对LiCoPO4性能的影响。电化学, 2008, 14(2), 210-212.

会议报告:


知识产权:

授权专利:

(1)纳米片状多孔过渡金属氧化物/碳复合材料及其制备方法,发明,申请日:2016/1/22,专利号:ZL201610043810.4;

(2)一种呋喃羧酸类稀土钕金属−有机框架发光材料及其合成方法,发明,申请日:2016/5/20,专利号:ZL201610339940.2;

(3)一种动力锂离子电池用三元聚阴离子磷酸盐/碳正极材料的快速微波反应制备方法,发明,申请日,2014/5/8,专利号:ZL201410192405.X;

(4)二硒化钒/碳基复合材料、制备方法及锂离子电池负电极,发明,申请日:2014/6/12,专利号:ZL201410259717.8;

(5)纳米多孔金属氧化物/碳锂离子电池负极材料的制备方法,发明,申请日:2014/6/12,专利号:ZL201410261687.4;

(6)一种利用气流提高大蒜种植成活率的农机设备,发明,申请日:2017/3/24,ZL201710182203.0。

申请专利:

(1)一种富锂锰基正极材料及其制备方法,发明,申请日:2018/11/22,申请号:201811397324.8;

(2)一种电池包散热装置及其方法和车辆,发明,申请日:2018/12/19,申请号:201811556794.4;

(3)一种电池模组热管理装置及方法,发明,申请日:2019/2/22,申请号:201910131758.1;

(4)一种M-MOF-74/石墨烯复合阴极材料的制备方法和用途,发明,申请日:2018/12/29,申请号:201811634981.X;

(5)一种原位合成多孔纳米四氧化三钴/碳负极材料的方法,发明,申请日:2018/1/23,申请号:201810064641.1;

(6)一种扣式及软包全电池的制作方法,发明,申请日:2018/1/23,申请号:201810064055.7;

(7)一种阶梯形电池模组并行风冷散热结构,发明,申请日:2019/9/26,申请号:201910918029.0;

(8)一种高电压锂离子电池,发明,申请日:2016/4/28,申请号:201610277884.4;

(9)石墨烯/过渡金属磷化物/碳基复合材料、制备方法及锂离子电池负电极,发明,申请日:2017/6/20,申请号:201710467158.3;

(10)一种层状富锂锰基材料Li1.2Ni0.13Co0.13Mn0.54O2的制备方法,发明,申请日:2017/4/26,申请号:201710282479.6;

(11)一种回收发动机排气管余热提高发动机综合油耗利用率的装置,发明,申请日:2017/3/30,申请号:201710200333.2;

(12)一种提高电动汽车续航里程的方法,发明,申请日:2017/3/14,申请号:201710148432.0;

(13)一种气轮机式太阳能发电装置及其方法,发明,申请日:2017/3/21,申请号:201710168377.1;

(14)一种基于硅负极的新型高电压锂离子电池及能量存储元件,发明,申请日:2017/5/27,申请号:201710387222.7;

(15)一种大倍率充放电的纳米富锂正极材料制备方法,发明,申请日:2017/5/16,申请号:201710342097.8;

(16)一种基于气液动力学模型的锂离子电池SOC精确估算方法,PCT,申请日:2017/12/14,申请号:201711337881.6;

(17)一种FeP/氮、磷共掺杂石墨烯电化学储钠复合电极的制备方法,发明,申请日:2017/12/15,申请号:201711352927.1;

(18)一种氮、磷共掺杂石墨烯凝胶电化学储钠电极的制备方法,发明,申请日:2017/12/15,申请号:201711352938.X;

(19)一种基于威布尔分布的串联电池组剩余寿命预测方法,发明,申请日:2018/2/7,申请号:201810120764.2;

(20)一种锂离子电池富锂锰基正极材料及其喷雾干燥制备方法,发明,申请日:2018/5/24,申请号:201810507776.0;

(21)一种串联动力电池组电量均衡控制方法,发明,申请日:2018/11/12,申请号:201811338355.6;

(22)一种汽车和供暖与动力电池加热系统及方法,发明,申请日:2018/11/15,申请号:201811359568.7;

(23)一种基于气液动力学模型的电池开路电压估算方法及装置,PCT,申请日:2019/3/21,申请号:201910217008.6;

(24)一种带温度输入的锂离子电池开路电压估算方法及系统,发明,申请日:2019/2/25,申请号:201910137591.X;

(25)基于有机膦酸合成钠离子电池正极材料Na3V2(PO4)3/氮掺杂碳及制备方法,发明,申请日:2019/8/27,申请号:201910795917.8。

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