陈少杰教授简介
陈少杰,男,1982年生,博士,研究员,宁波工程学院新能源学院教师。入选宁波市拔尖人才,江苏省双创博士。
2012年7月博士毕业于西北工业大学,师从‘长江学者’特聘教授。2012-2018年,在中国科学院宁波材料技术与工程研究所历任博士后、助理研究员、高级工程师、“关键人才”高级工程师;长期致力于固态电池用关键材料及其器件研究。主持宁波市重大专项课题项目,江西省重点研发计划课题项目,浙江省自然基金,宁波市自然基金等。参与纳米先导专项、国家重大科研计划、国家电网、CATL、BOSCH、赣锋锂业等项目,部分专利向赣锋锂业进行转移转化,协助孵化成立浙江锋锂新能源科技有限公司。荣获宁波市科技进步二等奖、中科院宁波材料所科技促进发展奖优秀个人奖等荣誉。截止目前,以第一/通讯作者在Energy Storage Materials(4篇,一区)、Journal of Materials Chemistry A(1篇,二区)、ACS Applied Materials & Interfaces(1篇,二区)、Journal of Power Sources(4篇,二区)、Electrochimica Acta(1篇,二区),Journal of Materiomics(1篇,一区)等期刊发表研究论文50余篇。
2018年底受邀加盟蜂巢能源科技有限公司固态电池开发部,任部门总监、蜂巢能源&中科院宁波材料所共建固态电池技术研究中心主任,从事固态电池工程化技术开发及研究工作,至今具有10余年相关技术研发、项目管理和团队建设经验。期间,部分关键电解质材料具备放量能力,相关电池组件、材料性能处于国际先进水平。申请专利160余项,已授权74项。涉及材料、组件、电芯、结构、工艺、设备等固态电池相关全方位技术,2022年于国内率先推出20Ah级硫系全固态电池,并设计规划全固态电池制作中试线。主持2021年度江苏省双碳专项,2022年度科技部重点研发计划课题项目。
研究方向:
固态储能技术
科研获奖情况:
2022年度江苏省双创博士荣誉称号
代表性科研成果:
1.Shaojie Chen, Dongjiu Xie, Gaozhan Liu, Jean Pierre Mwizerwa, Qiang Zhang, Yanran Zhao, Xiaoxiong Xu, Xiayin Yao. Sulfide Solid Electrolytes for All-Solid-State Lithium Batteries: Structure, Conductivity, Stability and Application, Energy Storage Materials, 2018, 14, 58-74.
2.Shaojie Chen, Junye Wang, Zhihua Zhang, Linbin Wu, Lili Yao, Zhenyao Wei, Yonghong Deng, Dongjiu Xie, Xiayin Yao, Xiaoxiong Xu.In-situ preparation of poly(ethylene oxide)/Li3PS4 hybrid polymer electrolyte with good nanofiller distribution for rechargeable solid-state lithium batteries, Journal of Power Sources, 2018, 387, 72–80.
3.High ion conductive Sb2O5-doped β-Li3PS4 with excellent stability against Li for all-solid-state lithium batteries, Journal of Power Sources, 2018, 389 , 140–147.
4.Zhihua Zhang, Shaojie Chen, Jing Yang, Junye Wang, Lili Yao, Xiayin Yao, Ping Cui, Xiaoxiong Xu. Interface Re-engineering of Li10GeP2S12 Electrolyte and Lithium anode for All-Solid-State Lithium Batteries with Ultralong Cycle Life, ACS Applied Materials & Interfaces, 2018, 10(3):2556-2565.
5.A large-size, bipolar-stacked and high-safety solid-state lithium battery with integrated electrolyte and cathode. Journal of Power Sources, 2018,394, 57-66.
6.Advanced Construction Strategy of All-solid-state Lithium Batteries with Excellent Interfacial Compatibility and Ultralong Cycle Life, Journal of Materials Chemistry A, 2017, 5,16984-16993.
7.A new succinonitrile plasticized PEO/Li10GeP2S12 composite solid electrolyte for all-solid-state lithium battery [J], Electrochimica Acta, 2016, 210, 905-914.
8.A promising PEO/LAGP hybrid electrolyte prepared by a simple method for all-solid-state lithium batteries [J], Solid State Ionics, 2016, 295, 65-71.
9.Shaojie Chen, Junye Wang, Zhenyao Wei, Zhihua Zhang, Yonghong Deng, Xiayin Yao, Xiaoxiong Xu.One-pot preparation of new copolymer electrolytes with tunable network structure for all-solid-state lithium battery[J], Journal of Power Sources, 2016,331, 322-331.
10.Lithium superionic conducting oxysulfide solid electrolyte with excellent stability against lithium metal for all-solid-state cells [J], Journal of the Electrochemical Society, 2016,163(2), A96-A101.
11.A new solid polymer electrolyte incorporating Li10GeP2S12 into a polyethylene oxide matrix for all-solid-state lithium batteries [J], Journal of Power Sources, 2016, 301, 47-53.
12.Hybrid solid electrolytes with excellent electrochemical properties and their applications in all-solid-state cells [J], Ionics, 2016, 1(1): 1~9.
13.Synthesis, characterization and photovoltaic properties of three new 3,4-dithienyl-substituted polythiophene derivatives [J], Polymer Journal, 2015, 48: 101~110.
14.A new conjugated polymer PPV-PCN: synthesis, characterization, and applications [J], Polymer Bulletin, 2015, 72(1):117~133.
15.Theoretical calculation on relationship between molecular structure and band gap of benzo[1,2-b:4,5-b′]dithiophene based homopolymer [J], Journal of Mathematical Chemistry, 2014, 52(10): 2507~2519.
16.Three new conjugated polymers based on benzo[2,1-b:3,4-b’]dithiophene: synthesis, characterization, photoinduced charge transfer and theoretical calculation studies [J], Polymer Chemistry, 2012, 3(8): 2244~2253.
17.A new conjugated polymer with donor-accepter architectures based on alternating 1,4-divinyl-2,5-dioctyloxybenzene and 5,8-(2,3-dipyridyl)-quinoxaline: synthesis, characterization, and photoinduced charge transfer [J], Express Polymer Letters, 2012, 6(6): 454~464.
18.Optical Bandgaps and Fluorescence Resonance Energy Transfer Studies of a series of Poly(phenyleneethynylene) Derivatives [J], Reactive and Functional Polymers, 2011, 71(10): 1008~1015.
19.Dispersion of ZnO Nanocrystals in Co-solvent and Its Application in Photovoltaic Material [J], Chemical Research in Chinese Universities, 2011, 27(6): 906~909.
20.Synthesis of SiO2@CdSe nanoparticles: dispersion and optical properties [J], Journal of Optoelectronics and Advanced Materials, 2011, 13(4): 359~365.
21.Synthesis of two conjugated polymers as TNT chemosensor materials [J], Sensors and Actuators B: Chemical, 2010, 149(1): 155~160.
22.Applications of Ti Powder in Preparation of Ceramics by Polysilazane Pyrolysis [J], Rare Metal Materials and Engineering, 2010, 39(7): 1244~1247.
23.Superior lithium ion conduction of polymer electrolyte with comb-like structure via solvent-free co-polymerization for bipolar all-solid-state lithium battery[J], Journal of Materials Chemistry A, 2018, 6, 13438 – 13447
24.Gaozhan Liu, Dongjiu Xie, Xuelong Wang, Xiayin Yao, Shaojie Chen*, Ruijuan Xiao, Hong Li, Xiaoxiong Xu, High air-stability and superior lithium ion conduction of Li3+3xP1-xZnxS4-xOx by aliovalent substitution of ZnO for all-solid-state lithium batteries. Energy Storage Materials, DOI:10.1016/j.ensm.2018.07.008
25.Stable cycling of all-solid-state lithium battery with surface amorphized Li1.5Al0.5Ge1.5(PO4)3 electrolyte and lithium anode, Electrochimica Acta, 2019, 297, 281-287.
26.One-pot synthesis of crosslinked polymer electrolyte beyond 5V oxidation potential for all-solid-state lithium battery,Journal of Power Sources, 2019,431(15),1-7.
27.Enabling high-areal-capacity all solid-state lithium-metal batteries by tri-layer electrolyte architectures, Energy Storage Materials, 2019, doi.org/10.1016/j.ensm.2019.06.006
28.Preparation of new composite polymer electrolyte for long cycling all-solid-state lithium battery, Ionics, 2019, 25(3),907-916. DOI: 10.1007/s11581-019-02852-6
29.High conductivity polymer electrolyte with comb-like structure via a solvent-free UV-cured method for large-area ambient all-solid-state lithium batteries, Journal of Materiomics, 2019, 5(2),195-203.
3.UV-cured polymer electrolyte for LiNi0.85Co0.05Al0.1O2//Li solid state battery working at ambient temperature, Energy Storage Materials, 2019, DOI: 10.1016/j.ensm.2019.02.004
已授权代表性发明专利:
1.陈少杰等,负极片及其制备方法与电池,2024-01-02,CN115188919B。
2.陈少杰等,一种锂金属负极保护层及其制备方法和应用,2024-04-19,CN116130654B。
3.陈少杰等,固态锂电池及其制备方法,2023-05-12,CN112072164B。
4.陈少杰等,硫化物固态电解质及其制备方法、锂离子电池,2024-03-22,CN113659199B。
5.陈少杰等,一种全固态电芯及其制备方法和应用,2023-07-21,CN114497752B。
在研科研项目:
1.国家科技部,国家重点研发计划“高端功能与智能材料”重点专项,基于材料基因工程的全固态电池关键材料的设计、制备与应用,2022YFB3807703,课题3 全固态单体电池设计与制造,2022-11至2025-10,276万元,,课题负责人。
2.江苏省科技厅,碳达峰碳中和科技创新专项资金(产业前瞻与关键核心技术攻关-竞争项目),BE2022007,高能量密度本征安全的全固态干法锂电池关键技术研发,2021-01至2026-01,400万元,项目负责人。
完成的科研项目:
1.江西省重点研发计划项目 固态锂离子电解质材料及锂离子二次固态电池制备技术开发及产业化应用,20182ABC280072018.1-2020.12,课题三 固态电解质材料及电解质膜和固态电池研究,200万,课题负责人
2.浙江省自然科学基金,界面调控有机/无机杂化聚合物电解质电导率及锂离子传导机制研究,LY18E030011,2018.1-2020.12,10万,项目负责人。
宁波市科技创新2025重大专项,固态动力锂电池技术,2018B10087,2018.1-2020.12,子课题 正负极活性材料衰减机理与失5效机制任务,150万,子课题负责人
联系方式:电话: 18967861091
邮箱:sjchen@nbut.edu.cn
