Wei Wu

Wei Wu

Lecturer / Master's Supervisor

College of Chemistry and Chemical Engineering, Donghua University                    



Research Interests

 1. Supercritical CO2 fluid dyeing technology and its fundamental theory

 2. Application of computational chemistry and artificial intelligence in the molecular structure design of novel dyes and auxiliaries

 3. Low-water and waterless dyeing technologies for cellulose fibers and their fundamental theory

Academic Achievements

Honors and Awards

 1. Second Prize for Science and Technology Progress, China National Textile and Apparel Council, 2023. Project: Key Technologies and Equipment for Energy-saving and Pollution-reducing Printing and Dyeing Processing of Cotton Knitted Fabrics (ranked 4/10).

Representative Publications

 1. Wei Wu, Bo Fan, Qingqing Zhou*, et al. Distribution of disperse dyes between supercritical CO2 and polyester fibers: A combined molecular dynamics simulation and experimental study. Journal of Cleaner Production, 2024, 481: 144162.

 2. Yalan Liu, Wei Wu*, Hong Xu, et al. A fast and effective way to measure the inner pore size distributions of wetted cotton fibers and their pretreatment performance using time-domain nuclear magnetic resonance. International Journal of Biological Macromolecules, 2024, 271: 132781.

 3. Wei Wu, Huaifu Ge, Qingqing Zhou*, et al. A method to improve the dye-uptake of less soluble disperse dyes for polyester fibers in supercritical CO2 fluid: A theoretical and experimental study. The Journal of Supercritical Fluids, 2024, 205: 106152.

 4. Ji Fan, Wei Wu*, Yitong Liu, et al. Customizable High-Contrast Optical Responses: Dual Photosensitive Colors for Smart Textiles. ACS Applied Materials & Interfaces, 2023, 15(46): 54085-54097.

 5. Shouying Wu, Wei Wu*, Jianing Fan, et al. Rapid activation of peroxymonosulfate with iron(III) complex for organic pollutants degradation via a non-radical pathway. Water Research, 2023, 233: 119725.

Authorized Patents

 1. Wei Wu, Zhiping Mao, Huaifu Ge, et al. Method for improving the solubility and dissolution rate of dyes and auxiliaries in supercritical carbon dioxide fluid. ZL202210307175.1; Japanese Patent JP7602237; International Patent Application PCT/CN2022/138006.

 2. Zhiping Mao, Wei Wu, Huaifu Ge, et al. Supercritical carbon dioxide fluid dyeing method with high dye uptake of disperse dyes. ZL202210307169.6; Japanese Patent JP7628260; International Patent Application PCT/CN2022/138068.

 3. Zhiping Mao, Wei Wu, Bo Fan, et al. Supercritical CO2 fluid dyeing method for accurately controlling blended dyes. ZL202211614133.9.

 4. Zhiping Mao, Wei Wu, Hong Xu, et al. Method for dye screening. ZL201910359725.2.

 5. Zhiping Mao, Wei Wu, Hong Xu, et al. Method for determining the salt and/or alkali stability of reactive dyes. ZL201811503225.3.

 6. Zhiping Mao, Junsong Tang, Wei Wu, et al. Dyeing method and device for post-adjusting the pH value of dyeing liquor. ZL202410204856.4.

Contact

 Email: wuwei@dhu.edu.cn

 Address: College of Chemical Engineering, 2999 Renmin North Road, Songjiang District, Shanghai, China