(*通讯作者,#共同一作)
1.Chen, Y.,Yang,S., Wang, Z.,and Elimelech, M.,“Transforming membrane distillation to a membraneless fabric distillation for desalination”,Nature Water, 2024, 2, 52-61
2.Chen, Y., Lu, K-J., Gai, W., and Chung, T-S., “Nanofiltration-Inspired Janus Membranes with Simultaneous Wetting and Fouling Resistance for Membrane Distillation”,Environmental Science & Technology, 2021, 55, 7654-7664
3.Chen, Y., Lu, K-J., Japip, S., and Chung, T-S., “Can Composite Janus Membranes with an Ultrathin Dense Hydrophilic Layer Resist Wetting in Membrane Distillation?”,Environmental Science & Technology, 2020, 54, 12713-12722
4.Chen, Y., Feng, D., Lin, S., and Wang, Z., “Quantifying the Benefits of Membranes with Ultrahigh Vapor Permeability for Membrane Distillation”,ACS ES&T Engineering, 2023 (Online)https://doi.org/10.1021/acsestengg.3c00010
5.Chen, Y.#,Wang, Z.#, Jennings, G.K., and Lin, S., “Probing Pore Wetting in Membrane Distillation using Impedance: Early Detection and Mechanism of Surfactant-induced Wetting”,Environmental Science & Technology Letters, 2017, 4 (11), pp 505-510
6.Chen, Y., Lu, K-J., Liang, C. Z., and Chung, T-S., “Mechanically Strong Janus Tri-bore Hollow Fiber Membranes with Asymmetric Pores for Anti-wetting and Anti-fouling Membrane Distillation”,Chemical Engineering Journal, 2022, 429, 132455
7.Chen, Y., Lu, K-J., and Chung, T-S., “An omniphobic slippery membrane with simultaneous anti-wetting and anti-scaling properties for robust membrane distillation”,Journal of Membrane Science,2020, 595, 117572
8.Zhao, H.,Wang, Z., andChen, Y.,*“A theoretical analysis on upgrading desalination plants with low-salt-rejection reverse osmosis”,Desalination, 2023, 565, 116827.
9.Feng, D.#,Chen, Y.#, Wang, Z., and Lin, S., “Janus Membrane with a Dense Hydrophilic Surface Layer for Robust Fouling and Wetting Resistance in Membrane Distillation: New Insights into Wetting Resistance”,Environmental Science & Technology, 2021, 55 (20), 14156-14164
10.Wang, Y.#,Chen, Y.#, Lin, S., Wang, Z., and He, T., “Negative Pressure Membrane Distillation: A Novel Strategy for Wetting Mitigation”,Environmental Science & Technology Letters,
11.Xie, S.#,Chen, Y.#,Feng, D., and Wang, Z., “Thin-Film Composite Membrane with a Hydrophobic Substrate for Robust Membrane Distillation”,Advanced Materials Technologies, 2023, 8 (7), 2201426
12.Wang, Z.,Chen, Y.#, Zhang, F., and Lin, S., “Significance of surface excess concentration in the kinetics of surfactant-induced pore wetting in membrane distillation”,Desalination, 2019, 450, 46-53
13.Wang, Z.,Chen, Y.#, Sun, X., Duddu, R., and Lin, S., “Mechanism of pore wetting in membrane distillation with alcohol vs. surfactant",Journal of Membrane Science, 2018, 559, 183-195
14.Zhou, W.,Chen, Y., He, X., and Wang, Z.,“Mechanistic insights to the reversibility of membrane wetting in membrane distillation”,Journal of Membrane Science,2023, 685, 121958
15.Feng, D.,Chen, Y., and Wang, Z.,“Surfactant pretreatment as a novel fouling mitigation strategy for membrane distillation”,Journal of Membrane Science,2023, 683, 121790
16.Lu, K-J., Zhao, D.,Chen, Y., Chang, J., and Chung, T-S., “Rheologically controlled design of nature-inspired superhydrophobic and self-cleaning membranes for clean water production”,npjClean Water,2020, 30
17.Lu, K-J.,Chen, Y., and Chung, T-S., “Design of Omniphobic Interfaces for Membrane Distillation – A Review”,Water Research, 2019, 162, 64-77
18.Wang, Z.,Chen, Y., and Lin, S., “Kinetic Model for Surfactant-Induced Pore Wetting in Membrane Distillation”,Journal of Membrane Science, 2018, 564, 275-288
19.Wang, Z., Feng, D.,Chen, Y., and He, D., and Elimelech, M., “Comparison of Energy Consumption of Osmotically Assisted Reverse Osmosis and Low-Salt-Rejection Reverse Osmosis for Brine Management”,Environmental Science & Technology, 2021, 55, 10714-10723
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