Ms. Yan Wei | CO2 Reduction | Best Researcher Award

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Ms. Yan Wei | CO2 Reduction | Best Researcher Award

Ms. Yan Wei | CO2 Reduction | Best Researcher Award

Ms. Yan Wei | Henan Academy of Sciences, China

Professional Profile

Scopus

Educational Background

Ph.D. in Chemistry (2017.9–2024.6)
Yan Wei earned a Doctorate in Chemistry under the guidance of Prof. Huanwang Jing at Lanzhou University, Gansu, China. The focus of the dissertation, titled "Preparation of Titanium-Based Semiconductor Heterojunction and Application to Photoelectrocatalytic CO₂ Reduction," highlights Yan’s expertise in developing innovative semiconductor materials for advanced catalytic applications.

B.Sc. in Applied Chemistry (2012.9–2016.6)
Yan Wei completed a Bachelor's degree in Applied Chemistry at Northeast Forestry University, Haerbin, China. The undergraduate dissertation, "Study on the Extraction of Xylose and Lignin from the Shell of Sunflower Seed," showcases Yan’s foundation in chemical extraction processes and sustainable resource utilization.

Publications Top Noted 

Leaf-like MSX/TiN heterojunction photocathodes mimicking plant cell – An effective strategy to enhance photoelectrocatalytic carbon dioxide reduction and systematic mechanism investigation

Authors: Wei, Y., He, C., Ullah, N., Ye, W., Jing, H.

Journal: Journal of Colloid and Interface Science

Year: 2025

BiVO4/CuIn5S8 heterojunction with rich sulphur vacancies for boosting visible light-driven photocatalytic water oxidation

Authors: Wang, J., Ma, Q., Wei, Y., Sun, W., Li, X.

Journal: Molecular Catalysis

Year: 2024

Photoelectrothermocatalytic reduction of CO2 to glycol via CdIn2S4-N/C hollow heterostructure mimicking plant cell

Authors: Liu, C., Fan, L., Meng, F., Zhang, Q., Jing, H.

Journal: Chemical Engineering Journal

Year: 2024

Triazine-COF@Silicon nanowire mimicking plant leaf to enhance photoelectrocatalytic CO2 reduction to C2+ chemicals

Authors: Wan, W., Meng, F., Chen, S., Ye, W., Jing, H.

Journal: Green Energy and Environment

Year: 2024

Different behaviors on the external and inner surface of hollow CdS/VS-MoS2 heterojunctions in photoelectrocatalytic CO2 reduction via SH-assisted mechanism

Authors: Liu, C., Xiao, Y., Wan, W., Zhang, Q., Jing, H.

Journal: Applied Catalysis B: Environmental

Year: 2023