Name: WU Feiyan 

Gender: Female

Job title: Professor

Email Address: feiywu@ncu.edu.cn

Education and Work Experience：

2006.04-present: Nanchang University, assistant/lecturer/associate professor/ professor, doctoral supervisor

1999.09-2003.07 Nanchang University, Bachelor degree

2003.09-2006.03 Zhejiang University, Master degree

2009.09-2013.12 Nanchang University, Doctor degree

2016.11-2017.11 California State University, USA, Visiting Scholar

Teaching：

Mainly engaged in the course teaching for chemistry and related majors, such as "Functional polymers", "College Chemistry", "Experiment of College Chemistry", "Experiment of Instrument Analysis" and so on.

Research fields:

The design and synthesis of organic/polymer semiconductor materials and their applications in organic photovoltaics and organic thermoelectric, devices preparation of organic solar cells and organic thermoelectrics. More than 40 academic papers were published and 2 projects of National Natural Science Foundation were received.

Research projects：

National Natural Science Foundation of China (52363023), 320,000, 2024.1-2027.12, project director.

National Natural Science Foundation of China (22169012), 350,000, 2022.1-2025.12, project director.

National Natural Science Foundation of China (21402080), 250,000, 2015.1-2017.12, project director.

Natural Science Foundation of Jiangxi Province (20151BAB216011), 50,000, project director.

Natural Science Foundation of Jiangxi Province (20212BAB204052), 100,000, project director.

Awards and Honors：

Representative papers and patents：

⑴Feiyan Wu* et al., Dimerized small molecular acceptors: Regulation of dimer conformation realizes binary organic solar cells with highly comprehensive performance. Nano Energy 2024, 121, 109218.

⑵Feiyan Wu* et al., Multi-functionally ferroelectric polymer promotes highly-efficient large-area organic solar cells with excellent comprehensive performance. Nano Energy 2024, 119, 109023.

⑶Feiyan Wu* et al., Synergistic strategy of rigid-bridge and flexible-bridge achieving high-performance and mechanical robustness all-Polymer solar cells. Chemical Engineering Journal 2024, 491, 152009.

⑷Feiyan Wu* et al., Acceptor-only oligomers with high coplanarity enable efficient and stable organic solar cells. Chemical Communications 2024, 60 (17), 2361-2364.

⑸Feiyan Wu* et al., Asymmetric Alloy Acceptor Strategy Guided by Similarity Principle Enables Highly Efficient and Stable Organic Solar Cells. Advanced Functional Materials 2023, 2308151.

⑹Feiyan Wu* et al., Facilely full-end-capping engineering promotes high-performance organic solar cells with simultaneously improved efficiency and stability. Chemical Engineering Journal 2023, 457, 141343.

⑺Feiyan Wu* et al., Non-conjugated terpolymer acceptors for highly efficient and stable lager-area all-polymer solar cells. Journal of Energy Chemistry 2022, 71, 631-638.

⑻Feiyan Wu* et al., Layer-by-layer and non-halogenated solvent processing of benzodithiophene-free simple polymer donors for organic solar cells. Chemical Engineering Journal 2022, 443, 136515.

⑼Feiyan Wu* et al., Novel Efficient Accptor1-Acceptor2 Type Copolymer Donors: Vinyl Induced Planar Geometry and High Performance Organic Solar Cells. Chemical Engineering Journal 2021, 129532.

⑽Feiyan Wu* et al., Liquid-crystal elastomers based on covalent adaptable networks: From molecular design to applications. Science China Materials 2023, 66 (8), 3004-3021.