Education Background

September 2017 – June 2021, Northeast Normal University, Ph.D. in Inorganic Chemistry

September 2013 – March 2016, Shenyang University of Chemical Technology, Master of Science in Chemistry

September 2009 – June 2013, Liaodong University, Bachelor of Engineering in Chemical Engineering and Technology

Work Experience

July 2024 – Present, Lecturer, Jiangxi Science & Technology Normal University

July 2022 – July 2024, Researcher, Jiangxi Copper Technology Research Institute Co., Ltd.

Research Areas

        1. Design and Synthesis of Organic Porous Framework Materials

        2. Application of Organic Porous Framework Materials in Metal Ion Extraction and  Separation

Major Scientific Research Achievements

Primarily engaged in fundamental research in the design, synthesis, and application of organic porous framework materials. In recent years, I have participated as a key member in research projects, including "Design and Synthesis of Porous Aromatic Framework Materials with High-Efficiency Uranium Ion Extraction Performance" and "Targeted Preparation of Porous Aromatic Framework Materials for Uranium Extraction from Seawater". I have published 3 research papers as the first author or corresponding author, and granted 1 invention patent.

Major Representative Academic Works/Papers/Patents

1. Wang Z, Meng Q, Ma R, Wang Z, Yang Y, Sha H, Ma X, Ruan X, Zou X, Yuan Y*, Zhu G*. Constructing an Ion Pathway for Uranium Extraction from Seawater. Chem, 2020, 6, 1683-1691.

2. Wang Z, Ma R, Meng Q, Yang Y, Ma X, Ruan X, Yuan Y*, Zhu G*. Constructing Uranyl-specific nanofluidic channels for unipolar ionic transport to realize ultra-fast uranium extraction. Journal of the American Chemical Society, 2021, 143, 14523.

3. Yao M^†, Wang Z^†, Li Z, Li G, Xu J, Lu B*. Facile In-situ Electrosynthesis of a Novel PEDOT Derivative for Efficient Uranium Electroextraction. Separation and Purification Technology, 2025, 365, 132432.

Patents:

1. A Composite Material of Organic Aryne-Doped Porous Aromatic Framework, Its Preparation Method, and Applications, CN 113101899 B.