Li Long

Affiliations: 
The University of Hong Kong, Hong Kong Island, Hong Kong, Hong Kong 
Area:
Environmental engineering, membrane techonlogy
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Chuyang Tang research assistant 2019-2023 The University of Hong Kong

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Wu C, Long L, Yang Z, et al. (2025) Unraveling the role of funnel effect vs. gutter effect in water permeance and antifouling performance of polyamide nanofiltration membranes. Water Research. 285: 124056
Li N, Liu Y, Wan H, et al. (2025) Nature-inspired water purification: Integrating riverbank filtration and biofilm-regulating nanofiltration. Water Research. 285: 124077
Li R, Zhang L, Zheng S, et al. (2025) Enhanced removal of organic micropollutants using 2D metal-organic framework interlayered nanofiltration membrane. Water Research. 283: 123852
Xiong K, Long L, Xing J, et al. (2025) Biofilm-Induced Critical Flux in Dead-End Ultrafiltration Processes: Phenomenon, Mechanism, and Economic and Environmental Benefits. Environmental Science & Technology. 59: 5337-5347
Zhang L, Li R, Zheng S, et al. (2024) Hydrogel-embedded vertically aligned metal-organic framework nanosheet membrane for efficient water harvesting. Nature Communications. 15: 9738
Gan B, Peng LE, Liu W, et al. (2024) Ultra-permeable silk-based polymeric membranes for vacuum-driven nanofiltration. Nature Communications. 15: 8656
Long L, Guo H, Zhang L, et al. (2024) Engraving Polyamide Layers by Self-Etchable CaCO Nanoparticles Enhances Separation Properties and Antifouling Performance of Reverse Osmosis Membranes. Environmental Science & Technology. 58: 6435-6443
Liu W, Long L, Yang Z, et al. (2023) Enhancing the removal of organic micropollutants by nanofiltration membrane with Fe (III)-tannic acid interlayer: Mechanisms and environmental implications. Water Research. 245: 120623
Long L, Peng LE, Zhou S, et al. (2023) NaHCO addition enhances water permeance and Ca/haloacetic acids selectivity of nanofiltration membranes for drinking water treatment. Water Research. 242: 120255
Gan Q, Wu C, Long L, et al. (2023) Does Surface Roughness Necessarily Increase the Fouling Propensity of Polyamide Reverse Osmosis Membranes by Humic Acid? Environmental Science & Technology
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