孙现众-中国科学院大学-UCAS

孙现众男硕导中国科学院电工研究所
电子邮件： xzsun@mail.iee.ac.cn
通信地址：北京市海淀区中关村北二条6号中科院电工研究所
邮政编码： 100190

研究领域

超级电容器，高功率电化学储能器件

招生信息

招生专业

0808Z2-能源与电工的新材料及器件
085600-材料与化工

招生方向

超级电容器，高功率电化学储能器件及应用

教育背景

2007-09--2011-06   清华大学   博士学位
2003-09--2006-03   浙江大学   硕士学位
1995-09--1999-06   武汉工程大学   学士

工作经历

工作简历

2023-01~现在, 中国科学院电工研究所, 研究员
2014-10~2022-12,中国科学院电工研究所, 副研究员
2011-07~2014-10,中国科学院电工研究所, 助理研究员
1999-07~2003-06,浙江新安化工集团, 助理工程师，工程师

社会兼职

2021-05-03-今,超级电容产业联盟青年工作委员会, 秘书长
2019-04-01-今,超级电容产业联盟, 副秘书长

专利与奖励

奖励信息

（1）北京市自然科学奖, 二等奖, 省级, 2020

专利成果

[1] 张克良, 马衍伟, 孙现众, 张熊, 王凯, 徐亚楠, 孙宇. 二氧化碳的捕集方法. CN: CN119236631A, 2025-01-03.
[2] 安亚斌, 马衍伟, 张熊, 孙现众. 锂离子储能器件的预锂化方法及锂离子储能器件. CN: CN118040069A, 2024-05-14.
[3] 马衍伟, 孙现众, 张熊. 一种复合材料作为正极电极的活性材料的应用及超级电容二氧化碳吸附储能装置. CN: CN117650015A, 2024-03-05.
[4] 张晓虎, 马衍伟, 张熊, 孙现众. 一种全碳型锂离子电容器电芯及全碳型锂离子电容器电芯的预锂化方法. CN: CN116525308A, 2023-08-01.
[5] 马衍伟, 孙现众, 张熊. 一种超级电容吸附储能系统及电力调频装置. 202310141694.X, 2023-02-21.
[6] 孙现众, 马衍伟, 王凯. 一种二氧化碳超级电容吸附储能和电解制氢的联用装置. 202310141690.1, 2023-02-21.
[7] 张晓虎, 马衍伟, 张熊, 孙现众. 锂离子电容器. CN 219180365 U, 2023-06-13.
[8] 马衍伟, 孙现众, 安亚斌, 张熊. 一种具有预嵌锂功能的锂离子储能器件. CN 115360434 A, 2022-11-18.
[9] 马衍伟, 孙现众, 安亚斌, 张熊. 一种具有预嵌锂功能的锂离子储能器件. CN: CN115360434A, 2022-11-18.
[10] 张晓虎, 马衍伟, 张熊, 孙现众. 一种负极片预锂化系统. CN 114974939 A, 2022-08-30.
[11] 张克良, 马衍伟, 张晓虎, 孙现众, 张熊. 预锂化方法及预锂化系统. CN 115050927 A, 2022-09-13.
[12] 张克良, 马衍伟, 张晓虎, 孙现众, 张熊. 预锂化方法及预锂化系统. CN: CN115050927A, 2022-09-13.
[13] 张克良, 马衍伟, 张晓虎, 孙现众, 张熊. 预锂化方法及预锂化系统. CN: CN115050927B, 2023-09-08.
[14] 张晓虎, 马衍伟, 张熊, 孙现众. 一种负极片预锂化系统. CN: CN114974939A, 2022-08-30.
[15] 安亚斌, 孙现众, 马衍伟, 张熊. 锂离子储能器件的预嵌锂装置及预嵌锂方法. CN 114243090 B, 2024-09-10.
[16] 孙现众, 马衍伟, 张熊, 安亚斌, 王凯, 张晓虎, 张克良. 锂离子储能器件的预嵌锂方法及制造方法. CN 114388891, 2022-04-22.
[17] 孙现众, 马衍伟, 张熊, 安亚斌, 王凯, 张晓虎, 张克良. 锂离子储能器件的预嵌锂辅助装置. CN: CN216750034U, 2022-06-14.
[18] 孙现众, 马衍伟, 张熊, 安亚斌, 王凯, 张晓虎, 张克良. 锂离子储能器件的预嵌锂方法及制造方法. CN: CN114388891A, 2022-04-22.
[19] 孙现众, 马衍伟, 张熊, 安亚斌, 王凯, 张晓虎, 张克良. 锂离子储能器件的预嵌锂方法及制造方法. CN: CN114388891B, 2024-03-19.
[20] 孙现众, 马衍伟, 张熊, 安亚斌, 王凯, 张晓虎, 张克良. 锂离子储能器件的预嵌锂辅助装置. CN 216750034 U, 2022-06-14.
[21] 张晓虎, 马衍伟, 孙现众, 张熊. 一种复合电源模块及复合电源均衡系统. CN 113595221, 2021-11-02.
[22] 孙现众, 马衍伟, 张熊. 一种硅基复合负极活性材料、硅基复合负极及其制备方法和应用. CN: CN 113161157 B, 2022-11-15.
[23] 张熊, 马衍伟, 孙琮凯, 孙现众. 一种钠离子电容器及其负极预钠化方法. CN: CN 113113235 B, 2022-11-15.
[24] 安亚斌, 马衍伟, 孙现众, 张熊. 一种锂离子储能器件及其预锂化、和制备方法. CN: CN 112993208 B, 2022-07-01.
[25] 孙现众, 马衍伟, 张熊. 一种分开式锂离子电池电容及其制备方法. CN: CN111987392A, 2020-11-24.
[26] 张晓虎, 马衍伟, 孙现众, 张熊. 一种高电压电化学电容器、制备方法及其储能模组. CN: CN 111640582 B, 2022-11-15.
[27] 张晓虎, 马衍伟, 孙现众, 安亚斌. 一种制备多孔电极片的穿孔装置及方法. CN: CN111326740B, 2021-11-02.
[28] 张晓虎, 马衍伟, 孙现众, 安亚斌. 一种制备多空电极片的穿孔装置及方法. CN 111326740, 2021-11-02.
[29] 安亚斌, 马衍伟, 孙现众, 张熊, 张晓虎. 一种预锂化电极. CN 111244458, 2022-01-11.
[30] 张晓虎, 马衍伟, 孙现众, 张熊, 王凯. 一种软包超级电容器模组. CN: CN110911172A, 2020-03-24.
[31] 张晓虎, 马衍伟, 孙现众, 张熊. 具有复合电极结构的储能电芯及电芯预嵌锂的方法. CN: CN110729529A, 2020-01-24.
[32] 孙现众, 马衍伟, 张熊. 一种锂离子电化学储能器件负极的无析锂预嵌锂方法. CN: CN110600285A, 2019-12-20.
[33] 马衍伟, 杨昊, 孙现众. 一种电容器荷电状态的预测方法、装置及电子设备. CN: CN110361642A, 2019-10-22.
[34] 张熊, 马衍伟, 孙琮凯, 孙现众. 一种锂离子电容器的正极电极片、锂离子电容器及其负极预嵌锂方法. CN: CN110246699A, 2019-09-17.
[35] 孙现众, 马衍伟. 一种锂离子储能器件的预嵌锂方法. CN: CN110246706A, 2019-09-17.
[36] 孙现众, 马衍伟, 张熊, 安亚彬. 一种锂离子电化学储能器件的预嵌锂方法. CN: CN109817473A, 2019-05-28.
[37] 安亚彬, 马衍伟, 孙现众, 张熊. 一种锂离子电化学储能器件的制备方法. CN: CN109786841A, 2019-05-21.
[38] 孙现众, 马衍伟, 张熊, 安亚斌. 一种减小锂离子电容器漏电流的方法. CN: CN108962613B, 2020-08-11.
[39] 马衍伟, 孙现众, 耿琳彬, 张熊. 一种锂离子电池电容. CN: CN108428563A, 2018-08-21.
[40] 孙现众, 马衍伟, 张熊. 一种锂离子电容器的制作方法. CN: CN107731555A, 2018-02-23.
[41] 孙现众, 马衍伟, 张熊. 一种锂离子电容器. CN: CN107680819B, 2019-02-01.
[42] 孙现众, 马衍伟, 张熊. 一种锂离子电容器. CN: CN107680819A, 2018-02-09.
[43] 张熊, 赵轩, 张世佳, 马衍伟, 孙现众. 一种高能量密度的锂离子电容器. 中国: CN107248451A, 2017-10-13.
[44] 孙现众, 马衍伟, 张熊. 多层复合电极及采用该电极的锂离子电池电容. CN: CN107331528A, 2017-11-07.
[45] 马衍伟, 刘文杰, 孙现众, 张熊, 李晨. 介孔石墨烯导电浆料和制备方法及用途. CN: CN106784827A, 2017-05-31.
[46] 孙现众, 马衍伟, 张熊. 一种电极的制备方法及装置. CN: CN105355449A, 2016-02-24.
[47] 孙现众, 马衍伟, 张熊. 锂离子混合型电容器. 中国: CN105161309B, 2017-11-14.
[48] 王凯, 张熊, 孙现众, 马衍伟. 一种柔性超级电容器及其制备方法. 中国: CN105161316B, 2018-07-27.
[49] 王凯, 张熊, 孙现众, 马衍伟. 一种水凝胶电解质薄膜及其制备方法和用途. CN: CN105161315A, 2015-12-16.
[50] 孙现众, 马衍伟, 张熊. 锂离子电容器负极的预嵌锂方法. CN: CN105097293A, 2015-11-25.
[51] 孙现众, 马衍伟. 一种钛酸锂基锂离子电容器. CN: CN105047418A, 2015-11-11.
[52] 孙现众, 马衍伟, 张熊, 徐南生. 一种钛酸锂基锂离子电容器. 中国: CN105047418B, 2017-11-14.
[53] 孙现众, 马衍伟, 张熊. 一种锂离子储能器件的制造方法. 中国: CN104037458A, 2017-02-22.
[54] 马衍伟, 张海涛, 张熊, 王凯, 孙现众. 超级电容器用石墨烯及石墨烯复合物的制备方法. CN: CN104192834A, 2014-12-10.
[55] 孙现众, 马衍伟, 张熊. 一种锂离子储能器件. 中国: CN104200999A, 2017-03-08.
[56] 马衍伟, 张大成, 张熊, 孙现众. 球磨氧化石墨和镁粉宏量制备石墨烯的方法. 中国: CN104211049A, 2016-08-24.
[57] 孙现众, 马衍伟, 张熊. 锂离子混合型电容器的制备方法及其锂离子混合型电容器. 中国: CN104008893A, 2014-08-27.
[58] 黄博, 马衍伟, 韦统振, 张熊, 孙现众, 张大成. 一种具有电压均衡能力的超级电容器组用充电电路. 中国: CN103427462A, 2015-11-04.
[59] 张熊, 张海涛, 马衍伟, 孙现众. 一种由二氧化碳转化制备多孔碳基纳米材料的方法. 中国: CN103332681A, 2015-07-22.
[60] 马衍伟, 张海涛, 张熊, 孙现众, 张大成. 一种介孔有序石墨烯的宏量制备方法. 中国: CN103112844A, 2014-12-24.
[61] 孙现众, 张熊, 马衍伟, 黄博. 一种锂离子超级电容器. CN: CN102956357A, 2013-03-06.
[62] 孙现众, 张熊, 马衍伟, 黄博. 一种锂离子超级电容器. 中国: CN102956357A, 2015-04-08.
[63] 孙现众, 马衍伟, 张熊. 一种三电极超级电容器. 中国: CN102867653A, 2016-03-09.
[64] 孙现众, 马衍伟, 张熊, 张海涛. 一种超级电容器电极片的制备方法. 中国: CN102683034A, 2015-03-25.
[65] 孙现众, 马衍伟, 张熊, 刘水平, 闫新育. 一种水系超级电容器. CN: CN102522205B, 2014-01-22.
[66] 孙现众, 马衍伟, 张熊, 刘水平, 闫新育. 一种水系超级电容器. CN: CN102522205A, 2012-06-27.
[67] 孙现众, 马衍伟, 张熊, 刘水平, 闫新育. 一种水系超级电容器. 中国: CN102522205B, 2014-01-22.
[68] 张熊, 马衍伟, 孙现众. 一种微波回流法制备纳米二氧化锰的方法. CN: CN102502853A, 2012-06-20.

出版信息

发表论文

[1] Liu, Wenjie, An, Yabin, Zhang, Xiong, Wang, Lei, Li, Chen, Xu, Yanan, Zhang, Xudong, Li, Shani, Yi, Sha, Gong, Yue, Sun, Xianzhong, Wang, Kai, Ma, Yanwei. General Synthesis of Graphene/Metal Oxide Heterostructures for Enhanced Lithium Storage Performance. ADVANCED FUNCTIONAL MATERIALS[J]. 2024, 第 11 作者34(16): 2313274, http://dx.doi.org/10.1002/adfm.202313274.
[2] 孔妍妍, 张熊, 安亚斌, 李晨, 孙现众, 王凯, 马衍伟. MOF衍生多孔碳基材料的制备及其在锂离子电容器负极中的应用进展. 储能科学与技术[J]. 2024, 第 5 作者13(8): 2665-2678, http://lib.cqvip.com/Qikan/Article/Detail?id=7112766005.
[3] Zhao, Chunyu, Yao, Shuyu, Li, Chen, An, Yabin, Zhao, Shasha, Sun, Xianzhong, Wang, Kai, Zhang, Xiong, Ma, Yanwei. Recent advances in transition metal oxides as anode materials for high-performance lithium-ion capacitors. CHEMICAL ENGINEERING JOURNAL. 2024, 第 6 作者  通讯作者  497: http://dx.doi.org/10.1016/j.cej.2024.154535.
[4] ZHAO Shasha, ZHANG Xiong, LI Chen, AN Yabin, HU Tao, WANG Kai, SUN Xianzhong, MA Yanwei. The application of metal-organic frameworks and their derivatives for lithium-ion capacitors. 新型炭材料（中英文）[J]. 2024, 第 7 作者  通讯作者  39(5): 872-895, http://lib.cqvip.com/Qikan/Article/Detail?id=7113217257.
[5] Wang Lei, Zhang Xiong, Kong Yanyan, Li Chen, An Yabin, Sun Xianzhong, Wang Kai, Ma Yanwei. Metal-organic framework-derived CoSe_2@N-doped carbon nanocubes for high-performance lithium-ion capacitors. RARE METALS[J]. 2024, 第 6 作者43(5): 2150-2160, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=7719400&detailType=1.
[6] Liu, Heqiang, Zhang, Xiong, Li, Chen, Zhao, Shasha, An, Yabin, Sun, Xianzhong, Wang, Kai, Ma, Yanwei. Self-Templating Synthesis of Mesoporous Carbon Cathode Materials for High-Performance Lithium-Ion Capacitors. CHEMSUSCHEM. 2024, 第 6 作者http://dx.doi.org/10.1002/cssc.202401365.
[7] 徐艺, 李晨, 任祥, 张熊, 王凯, 孙现众, 马衍伟. 低温锂离子电容器研究进展. 工程科学学报[J]. 2024, 第 6 作者46(8): 1509-1520, http://lib.cqvip.com/Qikan/Article/Detail?id=7112308841.
[8] Li, Chen, An, Yabin, Wang, Lei, Wang, Kai, Sun, Xianzhong, Zhang, Haitao, Zhang, Xiong, Ma, Yanwei. Balancing microcrystalline domains in hard carbon with robust kinetics for a 46.7 Wh kg-1 practical lithium-ion capacitor. CHEMICAL ENGINEERING JOURNAL[J]. 2024, 第 5 作者485(null): 149880, http://dx.doi.org/10.1016/j.cej.2024.149880.
[9] 魏文品, 梁初, 孙现众, 王凯, 张熊, 马衍伟. 金属硒化物储能机理及其在锂离子电容器中的应用. 材料工程[J]. 2024, 第 3 作者52(6): 42-50, http://lib.cqvip.com/Qikan/Article/Detail?id=7112344775.
[10] Li Shani, Xu Yanan, Liu Wenhao, Zhang Xudong, Ma Yibo, Peng Qifan, Zhang Xiong, Sun Xianzhong, Wang Kai, Ma Yanwei. Carbon nanocages bridged with graphene enable fast kinetics for dual-carbon lithium-ion capacitors. GREEN ENERGY & ENVIRONMENT[J]. 2024, 第 8 作者9(3): 573-583, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=7750255&detailType=1.
[11] Peng, Qifan, Wang, Kai, Gong, Yue, Zhang, Xudong, Xu, Yanan, Ma, Yibo, Zhang, Xiong, Sun, Xianzhong, Ma, Yanwei. Tailoring Lignin-Derived Porous Carbon Toward High-Energy Lithium-Ion Capacitor Through Varying Sp 2 - and Sp 3 -Hybridized Bonding. ADVANCED FUNCTIONAL MATERIALS[J]. 2023, 第 8 作者33(52): http://dx.doi.org/10.1002/adfm.202308284.
[12] 张晓虎, 张熊, 张克良, 孙现众, 王凯, 马衍伟. 储能技术在轨道交通再生制动能量回收的应用. 电气工程学报[J]. 2023, 第 4 作者18(2): 210-220, http://lib.cqvip.com/Qikan/Article/Detail?id=7110041729.
[13] Wei Zhou, Zhien Liu, Wan Chen, Xiong Zhang, Xianzhong Sun, Maji Luo, Xiaohu Zhang, Chen Li, Yabin An, Shuang Song, Kai Wang, Yanwei Ma. Thermal characteristics of pouch lithium–ion battery capacitors based on activated carbon and LiNi1/3Co1/3Mn1/3O2. JOURNAL OF ENERGY STORAGE[J]. 2023, 第 5 作者  通讯作者  66: http://dx.doi.org/10.1016/j.est.2023.107474.
[14] Shani Li, Yanan Xu, Wenhao Liu, Xudong Zhang, Yibo Ma, Qifan Peng, Xiong Zhang, Xianzhong Sun, Kai Wang, Yanwei Ma. Carbon Nanocages bridged with Graphene enable Fast Kinetics for Dual-carbon Lithium-ion Capacitors. GREEN ENERGY & ENVIRONMENT[J]. 2023, 第 8 作者http://dx.doi.org/10.1016/j.gee.2022.10.006.
[15] Wei, Wenpin, Wang, Lei, Liang, Chu, Liu, Wenjie, Li, Chen, An, Yabin, Zhang, Lixing, Sun, Xianzhong, Wang, Kai, Zhang, Haitao, Zhang, Xiong, Ma, Yanwei. Interface engineering of CoSe2/N-doped graphene heterostructure with ultrafast pseudocapacitive kinetics for high-performance lithium-ion capacitors. CHEMICAL ENGINEERING JOURNAL[J]. 2023, 第 8 作者474: http://dx.doi.org/10.1016/j.cej.2023.145788.
[16] Sun, Xianzhong, An, Yabin, Zhang, Xiong, Wang, Kai, Yuan, Changzhou, Zhang, Xiaohu, Li, Chen, Xu, Yanan, Ma, Yanwei. Unveil Overcharge Performances of Activated Carbon Cathode in Various Li-Ion Electrolytes. BATTERIES-BASEL[J]. 2023, 第 1 作者  通讯作者  9(1): http://dx.doi.org/10.3390/batteries9010011.
[17] Ma, Yibo, Wang, Kai, Xu, Yanan, Zhang, Xudong, Peng, Qifan, Li, Shani, Zhang, Xiong, Sun, Xianzhong, Ma, Yanwei. Dehalogenation produces graphene wrapped carbon cages as fast-kinetics and large-capacity anode for lithium-ion capacitors. CARBON[J]. 2023, 第 8 作者202: 175-185, http://dx.doi.org/10.1016/j.carbon.2022.11.030.
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发表著作

（1）锂离子电容器, Lithium-ion Capacitors, 科学出版社, 2023-02, 第 3 作者

科研活动

科研项目

（ 1 ）混合型电池-电容储能器件的性能调控及其储能机理的研究, 负责人, 国家任务, 2014-01--2016-12
（ 2 ）电动汽车用高比能超级电容器研制, 参与, 地方任务, 2017-01--2019-01
（ 3 ）氮掺杂多孔碳纳米材料的可控制备及其电容性能调控, 参与, 国家任务, 2015-01--2018-12
（ 4 ）基于导电聚合物-碳复合材料水凝胶电极的新型柔性超级电容器研究, 参与, 国家任务, 2015-01--2017-12
（ 5 ）高效率电能路由及多类型混合储能关键技术, 参与, 中国科学院计划, 2018-04--2023-04
（ 6 ）高电压锂离子电容器及其界面调控研究, 负责人, 国家任务, 2021-01--2024-12

参与会议

（1）锂离子电池型电容器的性能优化与储能机制研究   第七届全国能量转换与存储材料学术研讨会   2023-04-07
（2）锂离子电池电容储能机制与性能提升策略    2022年超级电容产业联盟学术研讨会   2022-09-03
（3）Design and development of lithium-ion battery-supercapacitor hybrid devices   第三届国际电化学能源系统大会   2022-07-28
（4）Electrochemical Performances of SiOx Anode for Lithium-ion Capacitors   第34届世界电动车大会   2021-06-26
（5）硅基负极材料在LIC中的应用   2021超级电容器产业年会暨关键材料国产化推进研讨会   2021-05-15
（6）高性能锂离子电容器研究进展   先进能源材料与器件国际大会   2020-12-06
（7）高比能锂离子电容器的研究   第六届全国储能工程大会   2020-10-30
（8）高能量密度锂离子混合型电容器   第一届中国储能学术论坛暨风光储创新技术大会   2019-08-07
（9）高能量密度锂离子电容器   2019第五届全国储能工程大会   2019-07-20
（10）锂离子电容器电极材料的研究   2019第四届超级电容器及关键材料学术会议   2019-05-11
（11）Development of high-performance lithium-ion capacitors   2019国际电化学能源系统会议   2019-03-27
（12）具有高能量密度的锂离子电池电容   2018第三届超级电容器及关键材料学术会议   2018-07-12
（13）锂离子电容器的容量衰退行为研究   第十九次全国电化学大会   2017-12-01
（14）Hybrid battery-supercapacitor devices with high electrochemical performances   第五届先进电容器国际会议   2016-05-23

指导学生

已指导学生

杨昊硕士研究生 0808Z2-能源与电工的新材料及器件

王鹏磊硕士研究生 0808Z2-能源与电工的新材料及器件

陈港欣硕士研究生 0808Z2-能源与电工的新材料及器件

现指导学生

刘文霆硕士研究生 085801-电气工程

汪前冲硕士研究生 085801-电气工程