Wu Junye

Wu Junye
Personal Particulars
PhD Student
NUS Environmental Research Institute,


Singapore, 138602.

Office: CREATE Tower, #15-02
Email: e0974106@u.nus.edu



Joint Ph.D., National University of Singapore (NUS), Singapore (2021–present)

Joint Ph.D., Shanghai Jiao Tong University (SJTU), China (2021–present)

M.Sc., Shanghai Jiao Tong University (SJTU), China (2019–2021)

B.Eng., South China University of Technology (SCUT), China (2015–2019)


Research Interests

Synthesis and modification of CO2 adsorbents, shaping techniques of powder materials

Design and optimization of CO2 capture processes, especially directly from atmosphere

Design, construction, and tests of advanced CO2 adsorbers

Experiments, techno-economic analysis, and life cycle analysis on CO2 utilization




  1. Wu J., Chen Y., Xu Y., Chen S., Lv H., Gan Z., Zhu X., Wang R., Wang C.H., & Ge T. (2024). Facile synthesis of structured adsorbent with enhanced hydrophobicity and low energy consumption for CO2 capture from the air. Matter, 7, 1–17.
  2. Wu, J., Zhu, X., Yang, F., Wang, R., & Ge, T. (2022). Shaping techniques of adsorbents and their applications in gas separation: a review. Journal of Materials Chemistry A, 10(43), 22853-22895.
  3. Wu, J., Zhu, X., Chen, Y., Wang, R., & Ge, T. (2022). The analysis and evaluation of direct air capture adsorbents on the material characterization level. Chemical Engineering Journal, 450.
  4. Wu, J., Zhu, X., Yang, F., Ge, T., & Wang, R. (2021). Easily-synthesized and low-cost amine-functionalized silica sol-coated structured adsorbents for CO2 Chemical Engineering Journal, 425.
  5. Yang, F., Wu, J., Zhu, X., Ge, T., & Wang, R. (2021). Enhanced stability and hydrophobicity of LiX@ZIF-8 composite synthesized environmental friendly for CO2 capture in highly humid flue gas. Chemical Engineering Journal, 410.
  6. Zhu, X., Xie, W., Wu, J., Miao, Y., Xiang, C., Chen, C., Ge, B., Gan, Z., Yang, F., Zhang, M., O’Hare, D., Li, J., Ge, T., & Wang, R. (2022). Recent advances in direct air capture by adsorption. Chemical Society Reviews.
  7. Zhu, X., Lyu, M., Ge, T., Wu, J., Chen, C., Yang, F., O’Hare, D., & Wang, R. (2021). Modified layered double hydroxides for efficient and reversible carbon dioxide capture from air. Cell Reports Physical Science, 2(7), 100484
  8. Zhu, X., Ge, T., Wu, J., Yang, F., & Wang, R. (2021). Large-scale applications and challenges of adsorption-based carbon capture technologies. Chinese Science Bulletin, 66(22), 2861-2877.
  9. Yang, F., Ge, T., Zhu, X., Wu, J., & Wang, R. (2022). Study on CO2 capture in humid flue gas using amine-modified ZIF-8. Separation and Purification Technology, 287.
  10. Yang, F., Zhu, X., Wu, J., Wang, R., & Ge, T. (2021). Kinetics and mechanism analysis of CO2 adsorption on LiX@ZIF-8 with core shell structure. Powder Technology.


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