陈灵
发布时间:2023-02-23   访问次数:3771   作者:

姓名陈灵性别

年月

1993.05
职位
特聘副研究员

组室

超细材料

地点

实验15

520

E-mailchenling@ecust.edu.cn电话021-64252524


教育与工作经历


2023.01-至今          英国威廉希尔唯一官网       威廉希尔williamhill           特聘副研究员

2021.01-2022.12             英国威廉希尔唯一官网       化工学院                     博士后 (合作导师:李春忠教授)

2015.09-2021.01               英国威廉希尔唯一官网       材料科学与工程专业           博士   (导师:江浩教授)

2011.09-2015.06               英国威廉希尔唯一官网       无机非金属材料工程专业       学士


主要研究方向及研究成果


    主要从事二次电池关键材料的制备及应用(锂/钠离子电池正极材料,碳基负极材料)

    迄今,Adv. Mater.Adv. Energy Mater.Adv. Funct. Mater.Sci. China Mater.等期刊发表论文23篇,其中包括第一作者和(共同)通讯作者论文12篇。入选2021年度上海市“超级博士后”激励计划,2022年度上海市“晨光计划”项目。持国家自然科学基金青年项目,作为骨干参与国家自然科学基金联合基金重点等项目。


代表性论文


1. Ling Chen, Hao Jiang*, Haibo Jiang, Haoxuan Zhang, Shaojun Guo*, Yanjie Hu, Chunzhong Li*, Mo-based ultrasmall nanoparticles on hierarchical carbon nanosheets for superior lithium ion storage and hydrogen generation catalysis, Advanced Energy Materials, 2017, 7, 15, 1602782.

2. Da Xu, Qilin Cheng, Petr Saha, Yanjie Hu, Ling Chen*, Hao Jiang*, Chunzhong Li, Engineering Se/N co-doped hard CNTs with localized electron configuration for superior potassium storage, Advanced Functional Materials, 2022, 33, 5, 2211661.

3. Zhaofeng Yang, Ling Chen*, Huawei Zhu, Yihua Zhu, Hao Jiang*, Chunzhong Li, Stabilizing surface chemistry and texture of single-crystal Ni-rich cathodes for Li-ion batteries, Journal of Materials Science & Technology, 2022, 125, 192-197.

4. Ling Chen, Yuru Dong, Hao Jiang, Yanjie Hu*, Chunzhong Li*, Metal-cation-directed self-assembly of hierarchical MoS2 nanotubes as high-performance anode for Na-ion batteries, Chemical Engineering Science, 2022, 261, 117953.

5. Ling Chen, Yu Liu, Zongnan Deng, Hao Jiang*, Chunzhong Li, Edge-enriched MoS2@C/rGO film as self-standing anodes for high-capacity and long-life lithium-ion batteries, Science China Materials, 2021, 64, 1, 96-104.

6. Ling Chen, Cheng Lian, Hao Jiang*, Lingxue Chen, Jian Yan*, Honglai Liu, Chunzhong Li*, Dual-conductive N,S co-doped carbon nanoflowers for high-loading quasi-solid-state supercapacitor, Chemical Engineering Science, 2020, 217, 115496.