Dr. Jingjing Jiang | Jilin University | China
Prof. Jingjing Jiang is a distinguished scholar and researcher serving as a Professor, Doctoral Supervisor, and Deputy Director of the Department of Environmental Engineering at Jilin University, China. She obtained both her Master’s and Doctoral degrees from Jilin University, where she has built a notable academic and research career dedicated to advancing environmental sustainability through cutting-edge wastewater treatment technologies. As a Tang Aoqing Young Scholar and recognized Young Growth Science and Technology Talent of Jilin Province, Prof. Jiang represents a new generation of scientific leadership committed to integrating innovation with environmental protection. Her primary research focus centers on transmembrane ion transport for wastewater treatment, addressing complex challenges related to pollution control, resource recovery, and sustainable water management. Over the years, she has successfully completed or is currently leading 15 major research projects, including prestigious grants from the National Natural Science Foundation of China (NSFC) and the China Postdoctoral Science Foundation. These projects highlight her expertise in advanced membrane materials, electrochemical processes, and nanotechnology applications for efficient and sustainable environmental remediation. Prof. Jiang’s academic output reflects both productivity and impact. She has authored or co-authored 49 peer-reviewed journal publications in high-impact outlets indexed in SCI and Scopus, covering interdisciplinary themes across materials science, nanotechnology, and environmental engineering. Her research has been cited over 2,000 times, indicating the global recognition and influence of her work, and she maintains an impressive h-index of 25, showcasing her consistent scholarly excellence and contribution to the field. In addition to her journal articles, Prof. Jiang has published one academic book (ISBN-registered) and holds nine patents, many of which address innovative technologies for water purification and pollutant degradation. Her professional influence extends beyond research and teaching. Prof. Jiang serves on the Young Editorial Boards of several reputable international journals, including Nano-Micro Letters, Research, Water Purification Technology, and Carbon Neutralization, among others. These editorial appointments signify her leadership role in shaping emerging research directions in environmental engineering and sustainable technologies. She is also an active young member of the Jilin Provincial Society of Environmental Science and Engineering, contributing to regional academic development and professional collaboration. Prof. Jiang has established strong collaborative partnerships, notably with the National Natural Science Foundation of China Joint Fund, fostering interdisciplinary and cross-institutional innovation. Her outstanding achievements have earned her several honors, including the Jilin Provincial Natural Science Award and the prestigious Ogano Award.
Featured Publications
Jiang, J., Zhang, Y., Liu, Y., … Dong, S. (2025, March). Selective activation of peroxymonosulfate through gating heteronuclear diatomic distance for flexible generation of high-valent cobalt-oxo species or sulfate radicals.
Sun, T., Liu, Y., Li, J., … Dong, S. (2025, March). Radical and nonradical cocatalysis induced by asymmetric medium-spin cobalt single atom for water decontamination.
Jiang, J., Liu, S., Zhao, B., … Dong, S. (2025, February). Angstrom confinement-triggered adaptive spin state transition of CoMn dual single atoms for efficient singlet oxygen generation.
Zhao, Z., Jiang, J., Zhou, D., & Dong, S. (2025, January). Microalgal-based urea wastewater treatment with p-hydroxybenzoic acid enhances resource recovery and mitigates biological risks from Bisphenol A.
Liu, Y., Jiang, J., Li, T., … Dong, S. (2024, December). Tuning charge distribution for synergistic enhancement of internal electric field in BiOCl via phosphorus–vanadium dual-doping.
Fu, S., Dong, S., Cao, T., … Zhou, D. (2024, October). The transition metal composition could promote α-Fe₂O₃ catalytic ozonation at mild condition by improving electron transfer.
Jiang, J., Yue, C., Niu, S., … Dong, S. (2024, May). Gradient graphitic carbon rings induce successive built-in electric field for photo-Fenton-like reaction.