Education background

Sep 2020 – Dec 2024 | Ph.D. in Optics Engineering | University of Electronic Science and Technology of China

Sep 2017 – Jun 2020 | M.S. in Polymer Chemistry and Physics | Jiangxi Science and Technology Normal University

Sep 2013 – Jun 2017 | B.S. in Chemistry | Xinyang Normal University

Work Experience

Dec 2024 – Present | Jiangxi Science and Technology Normal University | Lecturer

Research Interests

1. Design, synthesis, and capacitive performance studies of novel conducting polymers.

2. Design, preparation, and supercapacitor applications of flexible conducting polymer films.

Major research achievements

My main research area involves the design, preparation, and application of flexible conducting polymer films for supercapacitors. Recently, I contributed as a primary member to one NSFC project and three provincial/ministerial projects. Currently, I have eight publications as the first author and hold five authorized invention patents. My recognitions include the First-Class Graduate Academic Scholarship (UESTC), the Northern Automation Special Graduate Scholarship, the Jiangxi Provincial Excellent Master’s Thesis Award, the National Graduate Scholarship (top 2%), and the “Excellent Poster Award” at the 5th Organic Optoelectronic Materials and Devices Development Conference in 2023.

Representative Academic Publications / Papers / Patents

1. Rui Wang, et al. One-step electropolymerized thieno[3,2-b]thiophene-based bifunctional electrode with controlled color conversion for electrochromic energy storage application, Chemical Engineering Journal 445 (2022) 136731.

2. Rui Wang, et al. Highly deformable bi-continuous conducting polymer hydrogels for electrochemical energy storage. Journal of Colloid and Interface Science 673 (2024) 143-152.

3. Rui Wang, et al. Achieving high-performance ternary organic solar cells by adding a high hole-mobility non-fullerene acceptor. Dyes and Pigments 199 (2022) 110083.

4. Rui Wang, et al. Highly efficient electrochemical energy storage of fluorinated nano-polyindoles with different morphology, Electrochimica Acta 349 (2020) 136410.

5. Rui Wang, et al. Fluoro-substituted conjugated polyindole for desirable electrochemical charge storage materials, Electrochimica Acta 320 (2019) 134641.