中国·yl23455永利(中国)股份有限公司官网
Chinese

Professor

谌烈

2023-09-13

中国·yl23455永利(中国)股份有限公司官网

Profile

Name: Lie Chen

Gender: Female

Job title: Professor

Email Address: chenlie@ncu.edu.cn

Education and Work Experience

2004-- 2006: School of Chemistry, Nanchang University, Assistant Professor

2006-- 2010: School of Chemistry, Nanchang University, Lecturers

2010-- 2013: School of Chemistry, Nanchang University, Associate Professor

2013-- present: School of Chemistry and Chemical Engineering, Nanchang University, Professor

2006.09~2009.07: Nanchang University, Doctoral Degree

2012.06~2013.05: Max Planck Institute for Polymer Research, Germany, Postdoctoral

TeachingOrganic Chemistry, Polymer Physics, Polymer Materials Research Methods, Disciplines Polymer Physics", "Research Methods in Polymer Materials", "Introduction to the Disciplines" and "Frontier Chemistry". Introduction" and "Frontier Chemistry", and "Functional Polymers". and "Functional Polymers" as well as the postgraduate courses. She also teaches in the postgraduate course of "Functional Polymer".

The courses taught by her were awarded the Jiangxi Provincial Excellence Courses and the second prize of Jiangxi Multimedia Courseware. The courses she taught were awarded the Jiangxi Provincial Quality Courses and the second prize of the Jiangxi Provincial Multimedia Courseware. The undergraduates trained by her have won the national innovation and entrepreneurship training programme. The undergraduates were awarded the national innovation and entrepreneurship training programme. Graduate students were awarded the special prize of National Baosteel and National Youth Science and Technology Innovation Award. The undergraduates trained by the university won the national innovation and entrepreneurship training programme.

Research fields: Optoelectronic functional materials and devices

Research projects

(1) National Natural Science Foundation of China (NSFC), Top Project, 52173170, Construction of Fast Self-healing Highly Conductive Cathode Interfacial Layers and Modulation of Their Performance in Flexible Organic Solar Cells, 2022-01-01 to 2025-12-31, 600,000 RMB, Under Research, Chairperson

(2) National Natural Science Foundation of China (NSFC), Top project, 51973087, Introducing self-assembling unit in random copolymer to regulate the heterojunction morphology and photovoltaic performance of non-fullerene organic solar cells, 2020-01-01 to 2023-12-31, 610,000 RMB, Under Research, Chairperson

(3) National Natural Science Foundation of China, Regional Science Foundation Programme, 21762029, Modulation of the interfacial properties of chalcogenide solar cells with aggregation-induced luminescence three-dimensional small molecule hole transport layer, 2018-01-01 to 2021-12-31, 390,000 RMB, Finished, Chairperson

(4) Jiangxi Provincial Department of Human Resources and Social Affairs, Jiangxi Talent Project, jxsq2019201004, Jiangxi "Thousand Talents Programme" for High-end Talents in Science and Technology Innovation, 2020-01 to 2024-12, 2 million RMB, Under Research, Chairperson

(5) Jiangxi Provincial Department of Science and Technology, Key Project of Jiangxi Provincial Natural Science Foundation, 20212ACB203010, Fast self-healing cathode interfacial layer regulates the interfacial characteristics of organic solar cells and its large-area printing, 2021-01 to 2023-12, 200,000 RMB, Under Research, Chairperson

(6) Jiangxi Provincial Department of Science and Technology, Academic and Technical Leaders in Key Disciplines of Jiangxi Province, 20162BCB22012, Solution-processable Organic Small Molecule Solar Cell Material Molecular Design and Its Devices, 2016-01 to 2018-07, 500,000 RMB, Finished, Chairperson

Awards and Honors

2019, Second-class prize of Natural Science for Outstanding Achievements of Higher Education Institutions

2016, Second-class prize of Jiangxi Provincial Natural Science

2022, Third-class prize of Jiangxi Provincial Natural Science Award

2013, Second-class prize of Jiangxi Provincial Natural Science

2008, Second-class prize of Jiangxi Provincial Natural Science

2021, Second-class prize of Jiangxi Provincial Natural Science

2013, Science and Technology Achievement Award of Higher Education Institutions in Jiangxi Province

Representative papers and patents

(1) Yujun Cheng; Qilong Mao; Chunxiang Zhou; Xuexiang Huang; Jiabin Liu; Jiawei Deng; Zhe Sun; Seonghun Jeong; Yongjoon Cho; Youhui Zhang; Bin Huang; Feiyan Wu; Changduk Yang; and Lie Chen; Regulating the Sequence Structure of Conjugated Block Copolymers Enables Large-Area Single-Component Organic Solar Cells with High Efficiency and Stability. Angew. Chem. Int. Ed. 2023, e202308267

(2) Jiabin Liu; Jiawei Deng; Yangyang Zhu; Xiaokang Geng; Lifu Zhang; Sang Young Jeong; Dan Zhou; Han Young Woo; Dong Chen; Feiyan Wu; Lie Chen; Regulation of Polymer Configurations Enables Green Solvent-Processed Large-Area Binary All-Polymer Solar Cells With Breakthrough Performance and High Efficiency Stretchability Factor, Adv. Mater., 2023, 35(1): 2208008

(3) Yujun Cheng; Bin Huang; Xuexiang Huang; Lifu Zhang; Seoyoung Kim; Qian Xie; Chao Liu; Thomas Heumüller; Zuo ji Liu; Youhui Zhang; Feiyan Wu; Changduk Yang; Christoph J. Brabec; Yiwang Chen; Lie Chen; Oligomer-assisted Photoactive Layers Enable >18% Efficiency of Organic SolarCells, Angew.Chem.Int. Ed., 2022, 61(21): e202200329

(4) Dong Chen; Jia Yao; Lie Chen; Jingping Yin; Ruizhi Lv; Bin Huang; Siqi Liu; Zhi-GuoZhang; Chunhe Yang; Yiwang Chen; Yongfang Li; Dye-incorporated Polynaphthalenedi imide Acceptor for Additivefree High-performance All-polymer Solar Cells, Angew.Chem.Int. Ed., 2018, 57(17): 4580-4584

(5) Jiawei Deng; Bin Huang; Wenhao Li; Lifu Zhang; Sang Young Jeong; Shaorong Huang; Shijing Zhang; Feiyan Wu; Xiaoli Xu; Guifu Zou; Han Young Woo; Yiwang Chen; Lie Chen; Ferroelectric Polymer Drives Performance Enhancement of Nonfullerene Organic Solar Cells, Angew. Chem. Int. Ed., 2022, 61(25): e202202177

(6) Xuexiang Huang; Yujun Cheng; Yuan Fang; Lifu Zhang; Xiaotian Hu; Shaorong Huang; Hean Zhang; Han Young Woo; Feiyan Wu; Lie Chen; A molecular weight-regulated sequential deposition strategy enabling semitransparent organic solar cells with the light utilization efficiency of over 5%, Energy Environ. Sci., 2022, 15: 4776-4788

1