1、主要论文 ORCID: https://orcid.org/0000-0003-2894-3468 [1] Y. Liu, H. Xie, Z. Qin, L. Lu, L. Wang, L. Sun, Y. Gu, Y. Zhang, Synergism induced intensification for the recovery of phenolic compounds using polymer inclusion membranes containing binary mixed carriers, Journal of Environmental Chemical Engineering 12(3) (2024) 112981. [2] M. Tan, S. Yang, C. Song, Z. He, J. Wang, Y. Liu, F. Liu*, Y. Zhang, Selective removal of chromium and chloride by flow electrode capacitive deionization (FCDI) with carrier-facilitated ion exchange membrane, Chemical Engineering Journal, 499 (2024) 156182. [3] Y. Wang, P. Wang, H. Xie, M. Tan, L. Wang, Y. Liu*, Y. Zhang*, Mechanistic investigation of intensified separation of molybdenum(VI) and vanadium(V) using polymer inclusion membrane electrodialysis, Journal of Hazardous Materials 456 (2023) 131671. [4] B. Wang, F. Liu, F. Zhang, M. Tan, H. Jiang, Y. Liu*, Y. Zhang*, Efficient separation and recovery of cobalt(II) and lithium(I) from spent lithium ion batteries (LIBs) by polymer inclusion membrane electrodialysis (PIMED), Chemical Engineering Journal 430 (2022) 132924. [5] Z. Qin, Y. Wang, L. Sun, Y. Gu, Y. Zhao*, L. Xia, Y. Liu*, B. Van der Bruggen, Y. Zhang, Vanadium recovery by electrodialysis using polymer inclusion membranes, Journal of Hazardous Materials 436 (2022) 129315. [6] B. Wang, Q. Lang, M. Tan, H. Jiang, L. Wang, Y. Liu*, Y. Zhang*, Crosslinking improved ion transport in polymer inclusion membrane‐electrodialysis process and the underlying mechanism, AIChE J 68 (2021) 17397. [7] T.T. Tran, Y. Liu, M.S. Lee, Recovery of pure molybdenum and vanadium compounds from spent petroleum catalysts by treatment with ionic liquid solution in the presence of oxidizing agent, Separation and Purification Technology 255 (2021) 117734. [8] B. Wang, Z. Li, Q. Lang, M. Tan, C. Ratanatamskul, M. Lee, Y. Liu*, Y. Zhang*, A comprehensive investigation on the components in ionic liquid-based polymer inclusion membrane for Cr(VI) transport during electrodialysis, Journal of Membrane Science 604 (2020) 118016. [9] Z. Li#, Y. Liu#, B. Wang, Q. Lang, M. Tan, M. Lee, C. Peng, Y. Zhang, Insights into the facilitated transport mechanisms of Cr(VI) in ionic liquid-based polymer inclusion membrane – Electrodialysis (PIM-ED) process, Chemical Engineering Journal 397 (2020) 125324. [10] N. Zhang#, Y. Liu#, R. Liu, Z. She, M. Tan, D. Mao, R. Fu, Y. Zhang, Polymer inclusion membrane (PIM) containing ionic liquid as a proton blocker to improve waste acid recovery efficiency in electrodialysis process, Journal of Membrane Science 581 (2019) 18-27. 2、专著 [1] Y. Mei, C. Jiang, Y. Liu, Y. Zhang, L. Wang, C.Y. Tang, Chapter nine - Electrodialysis membrane technology for industrial wastewater treatment: recent advances, in: Z. Wang, K.-H. Choo, C.Y. Tang, T.D. Waite (Eds.), Electrochemical Membrane Technology for Water and Wastewater Treatment, Elsevier2022, pp. 265-315. 3、专利 [1] 一种分离一价阴离子的膜、方法及系统,202411798577.1 [2] 一种提高双极膜电渗析效率的方法,202411723102.6 [3] 一种一二价离子分离膜及其制备方法,202411710981.9 [4] 二次资源浸出液中一步分离多种有价金属的方法,202211181291.X [5] 含胺类载体的脱酚膜及其制备方法和应用,202211362416.9 [6] 高效膜分离钼、钒的方法,202211611824.3 [7] 高钾低钠健康调味品的制备方法及装置,202111192270.3 |