JOURNAL ARTICLES

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2023

1. Zhao J.; Shang C.; Yin R., 2023. A High-Radical-Yield Advanced Oxidation Process Coupling Far-UVC Radiation with Chlorinated Cyanurates for Micropollutant Degradation in Water. Environmental Science and Technology.
2. von Eiff D.; Yeo J.; An A.K.; Chopra S.S., 2023. Comparative Economic and Life Cycle Analysis of Future Water Supply Mix Scenarios for Hong Kong – A Water Scarce City. Journal of Environmental Management, 325, 116370.
3. Liu J.; Zhang Z.; Deng Y.; Sato Y.; Wu D.; Chen G., 2023. Coupling methane and bioactive polysaccharide recovery from wasted activated sludge: A sustainable strategy for sludge treatment. Water Research, 233, 119775.
4. Lu S.; Shang C.; Sun B.; Xiang Y., 2023. Dominant Dissolved Oxygen-Independent Pathway to Form Hydroxyl Radicals and the Generation of Reactive Chlorine and Nitrogen Species in Breakpoint Chlorination. Environmental Science and Technology, 57(1), 150-159.
5. Zhang Z.; Dai J.; Liu J.; Wu D.; Chen G., 2023. Enhancing energy–climate–economy sustainability in coastal cities through integration of seawater and solar energy. Renewable and Sustainable Energy Reviews, 183, 113477.
6. Sato Y.; Xiang Y.; Cooper P.; Cassol G.S.; Luo Y.; Zeng Q.; Shang C.; Ren Z.J.; Chen G., 2023. Evaluating UV254 absorbance reductions in landfill leachate for municipal sewage co-treatment through timed UV/electrooxidation. Journal of Hazardous Materials, 445, 130624.
7. Shang W.; Liu W.; Wang W.; Khanzada N.K.; Guo J.; Li M.; Li X.; Lao J.-Y.; Jeong S.Y.; Tso C.Y.; Sun F.; An A.K., 2023. Facile synthesis of micro-eggette patterned nanofiltration membrane with enhanced anti-fouling and rejection performance. Desalination, 555, 116524.
8. Zhang Z.; Sato Y.; Dai J.; Chui H.K.; Daigger G.; Van Loosdrecht M.C.M.; Chen G., 2023. Flushing Toilets and Cooling Spaces with Seawater Improve Water-Energy Securities and Achieve Carbon Mitigations in Coastal Cities. Environmental Science and Technology, 57(12), 5068-5078.
9. Lin C.; Ling L.; Shang C., 2023. Formation of Dichlorine Monoxide for Organic Pollutant Degradation by Free Chlorine in High Chloride-Containing Water. ACS ES and T Water, 3(2), 410-419.
10. Song Y.; Shang C.; Ling L., 2023. Harnessing Evanescent Waves in UV-Irradiated TiO2-Coated Quartz Optical Fibers Improves Pollutant Degradation in Water. Water (Switzerland), 15, 2226.
11. Zhang X.; Choi P.J.; Khanzada N.K.; Wong P.W.; An A.K., 2023. Highly permeable chlorine-resistant forward osmosis membrane by grafting novel sulfonamide monomers. Desalination, 564, 116754.
12. Siddiqui M.A.; Chaiprapat S.; Lin C.S.K.; Chen G., 2023. Impacts and mechanism of total organic sulfur in extracellular polymeric substances on fouling of the anaerobic self-forming dynamic membrane bioreactor. Chemical Engineering Journal, 462, 142263.
13. Wang X.; Hung T.-F.; Chen F.-R.; Wang W.-X., 2023. In Situ Tracking of Crystal-Surface-Dependent Cu2O Nanoparticle Dissolution in an Aqueous Environment. Environmental Science and Technology, 57(2), 1006-1016.
14. Zan F.; Liang M.; Guo G.; Chen J.; Wu X.; Chen G., 2023. Long-term effects of sulfite pretreatment on the continuous anaerobic sludge digester for improving methane production and volatile solid reduction: Towards sustainable sludge treatment. Chemical Engineering Journal, 454, 140211.
15. Zhang Z.; Liu J.; Xiao C.; Chen G., 2023. Making waves: Enhancing sustainability and resilience in coastal cities through the incorporation of seawater into urban metabolism. Water Research, 242,120140.
16. Zhao J.; Payne E.M.; Liu B.; Shang C.; Blatchley E.R., III; Mitch W.A.; Yin R., 2023. Making waves: Opportunities and challenges of applying far-UVC radiation in controlling micropollutants in water. Water Research, 241, 120169.
17. Sun J.; Farid M.U.; Boey M.W.; Sato Y.; Chen G.; An A.K., 2023. MXene-PVA-TiO2-based photothermal-catalytic membrane with high structural stability for efficient desalination and photodegradation. Chemical Engineering Journal, 468, 143744.
18. Cheng, Z., Shang, C., Westerhoff, P., Ling, L., 2023. Novel polymer optical fibers with high mass-loading g-C3N4 embedded metamaterial porous structures achieve rapid micropollutant degradation in water. Water Research, 242, 120234.
19. Fard, M.B., Wu, D., 2023. Potential interactive effect on biomass and bio-polymeric substances of microalgal-bacterial aerobic granular sludge as a valuable resource for sustainable development. Bioresource Technology, 376, 128929.
20. An, Y., Sato, Y., Zheng, H., Chen, G., 2023. Reusable self-floating carriers recover heavy metals from industrial wastewater through heterogeneous nucleation for resource reuse. Journal of Hazardous Materials, 447, 130760.
21. Huang Y.; Law J.C.-F.; Wang Y.; Deng Y.; Liu L.; Zhang Y.; Ding J.; Yang Y.; Leung K.S.-Y.; Zhang T., 2023. Sucralose biodegradation and enriched degrading consortia revealed by combining Illumina and Nanopore sequencing. Chemical Engineering Journal, 461, 141766.
22. Cheng, X., Cheng, Z., Jing, B., Ao, Z., Shang, C., & Ling, L., 2023. Visible light-driven NH2Cl activation by g-C3N4 photocatalysis producing reactive nitrogen species to degrade bisphenol A. Water Research, 235, 119889.

 

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2022

1. Zhao, J., Peng, J., Yin, R., Fan, M., Yang, X., & Shang, C., 2022. Multi-angle comparison of UV/chlorine, UV/monochloramine, and UV/chlorine dioxide processes for water treatment and reuse, Water Research, 217, 118414.
2. Zhao, J., Peng, J., Shang, C., & Yin, R., 2022. Revisiting the protocol for determining submicromolar concentrations of ozone in the water treated by advanced oxidation processes. Chemosphere, 303, 135117.
3. Li, T., Shang, C., Xiang, Y., Yin, R., Pan, Y., Fan, M., & Yang, X., 2022. ClO2 pre-oxidation changes dissolved organic matter at the molecular level and reduces chloro-organic byproducts and toxicity of water treated by the UV/chlorine process. Water Research, 216, 118341.
4. Sun, B., Zheng, Y., Shang, C., & Yin, R., 2022. Concentration-dependent chloride effect on radical distribution and micropollutant degradation in the sulfate radical-based AOPs. Journal of Hazardous Materials, 430, 128450.
5. Cassol, G. S., Shang, C., Li, J., Ling, L., Yang, X., & Yin, R., 2022. Dosing low-level ferrous iron in coagulation enhances the removal of micropollutants, chlorite and chlorate during advanced water treatment. Journal of Environmental Sciences. 117, 119-128.
6. Peng, J., Yin, R., Yang, X., & Shang, C., 2022. A novel UVA/ClO2 advanced oxidation process for the degradation of micropollutants in water. Environmental Science & Technology, 56(2), 1257-1266.
7. Cheng, Z., Ling, L., Fang, J., & Shang, C., 2022. Visible light-driven g-C3N4 peroxymonosulfate activation process for carbamazepine degradation: Activation mechanism and matrix effects, Chemosphere 286 (3), 131906. 
8. Liu J.; Ling L.; Hu Q.; Wang C.; Shang C., 2022. Effects of operating conditions on disinfection by-product formation, calculated toxicity, and changes in organic matter structures during seawater chlorination, Water Research, 220, 118631.
9. Zhang, B., Wong, P. W., Guo, J., Zhou, Y., Wang, Y., Sun, J., ... & An, A. K., 2022. Transforming Ti3C2Tx MXene’s intrinsic hydrophilicity into superhydrophobicity for efficient photothermal membrane desalination. Nature Communications, 13(1), 1-10.
10. Khanzada, N. K., Jassby, D., & An, A. K., 2022. Conductive reverse osmosis membrane for electrochemical chlorine reduction and sustainable brackish water treatment. Chemical Engineering Journal, 435, 134858.
11. Farid, M. U., Choi, P. J., Kharraz, J. A., Lao, J. Y., St-Hilaire, S., Ruan, Y., ... & An, A. K., 2022. Hybrid nanobubble-forward osmosis system for aquaculture wastewater treatment and reuse. Chemical Engineering Journal, 435, 135164.
12. Zhang, B., Wong, P. W., & An, A. K., 2022. Photothermally enabled MXene hydrogel membrane with integrated solar-driven evaporation and photodegradation for efficient water purification. Chemical Engineering Journal, 430, 133054.
13. Farid, M. U., Kharraz, J. A., Lee, C. H., Fang, J. K. H., St-Hilaire, S., & An, A. K., 2022. Nanobubble-assisted scaling inhibition in membrane distillation for the treatment of high-salinity brine. Water Research, 209, 117954.
14. Sun, J., Jia, W., Guo, J., Khanzada, N. K., Jin, P., Wong, P. W., ... & An, A. K., 2022. Amino-embedded carbon quantum dots incorporated thin-film nanocomposite membrane for desalination by pervaporation. Desalination, 533, 115742.
15. Choi, P. J., Lim, S., Shon, H., & An, A. K., 2022. Incorporation of negatively charged silver nanoparticles in outer-selective hollow fiber forward osmosis (OSHF-FO) membrane for wastewater dewatering. Desalination, 522, 115402.
16. Zhao, Y., Guo, J., Li, Y., Zhang, X., An, A. K., & Wang, Z., 2022. Superhydrophobic and superoleophilic PH-CNT membrane for emulsified oil-water separation. Desalination, 526, 115536.
17. Khanzada, N. K., Deka, B. J., Kharraz, J. A., Wong, P. W., Jassby, D., Rehman, S., ... & An, A. K., 2022. Elucidating the role of graphene oxide layers in enhancing N-Nitrosodimethylamine (NDMA) rejection and antibiofouling property of RO membrane simultaneously. Journal of Membrane Science, 643, 120043.
18. Kharraz, J. A., Farid, M. U., Jassby, D., & An, A. K., 2022. A systematic study on the impact of feed composition and substrate wettability on wetting and fouling of omniphobic and janus membranes in membrane distillation. Journal of Membrane Science, 641, 119873.
19. Yeo, J., Chopra, S. S., von Eiff, D., Jeong, S., Zhang, L., & An, A. K., 2022. An integrated techno-economic analysis on wastewater reclamation in Hong Kong: A comprehensive cost–Benefit analysis with life cycle assessment. Journal of Cleaner Production, 357, 131838.
20. Kharraz, J. A., Khanzada, N. K., Farid, M. U., Kim, J., Jeong, S., & An, A. K., 2022. Membrane distillation bioreactor (MDBR) for wastewater treatment, water reuse, and resource recovery: A review. Journal of Water Process Engineering, 47, 102687.
21. Liu Y.; Xue X.; Wang Y.; Ye F.; Dai J.-G.; Chen G., 2022. Rapid synthesis of zeolites through g-C3N4-based photocatalysis, Green Chem., 24(15), 5792-5799.
22. Huang, W., Chen, Y., Hu, J., Yao, W., You, L. and Cheung, P.C.K., 2022. Algal sulfated polysaccharide-based hydrogels enhance gelling properties and in vitro wound healing compared to conventional hydrogels. Algal Research, 65, 102740.
23. Li, X., Peng, B., Cheung, P.C.K., Wang, J., Zheng, X. and You, L., 2022. Depolymerized non-digestible sulfated algal polysaccharides produced by hydrothermal treatment with enhanced bacterial fermentation characteristics Food Hydrocolloids, 130, 107687.
24. Hu, J., Yao, W., Chang, S., You, L., Zhao, M., Cheung P.C.K. and Hileuskaya, K., 2022. Structural characterization and anti-photoaging activity of a polysaccharide from Sargassum fusiforme. Food Research International, 157, 111267.
25. Tang, L.,Sun, Y., Ge, P., Chen, L., Cheung, P.C.K., Ding, Z. and Fang, J., 2022. Biogenetic nanocarriers with enhanced pH stability formed by zein and selectively depolymerized mushroom hyperbranched β-glucans. International Journal of Biological Macromolecules, 209, Part B 1771-1783.
26. Wang D.; Wang Y.; Liu L.; Chen Y.; Wang C.; Li Y.-Y.; Zhang T., 2022. Response and resilience of anammox consortia to nutrient starvation. Microbiome. 10(1), 1-14.
27. Luo Y, Wang W-X., 2022. Roles of hemocyte subpopulations in silver nanoparticle transformation and toxicity in the oysters Crassostrea hongkongensis. Environmental Pollution Volume 305, 15 July 2022, 119281.
28. Yang M, Wang W-X., 2022. Differential cascading cellular and subcellular responses induced by two sizes of nanoplastics. Science of the Total Environment 829: 154593.
29. Yuan L, Wang W-X., 2022. Bioimaging revealed contrasting organelle-specific transport of copper and zinc and implication for toxicity. Environmental Pollution 299: 118891.
30. Wang X, Wang W-X., 2022. Cu-based nanoparticle toxicity to zebrafish cells regulated by cellular discharges. Environmental Pollution 292: 118296.
31. Ching, P.M.L., Zou, X., Wu, D., So, R.H.Y., Chen, G.H. Development of a wide-range soft sensor for predicting wastewater BOD5 using an eXtreme gradient boosting (XGBoost) machine. Environmental Research 210, 112953.
32. Iqbal, A., Zan, F., Siddiqui, M.A., Nizamuddin, S., Chen, G., 2022. Integrated treatment of food waste with wastewater and sewage sludge: Energy and carbon footprint analysis with economic implications. Science of the Total Environment 825, 154052.
33. Huang, H., Deng, Y.-F., Zeng, Q., (...), Chen, G.*, Wu, D., 2022. Integrating electrochemical pretreatment (EPT) and side-stream sulfidogenesis with conventional activated sludge process: Performance, microbial community and sludge reduction mechanisms. Chemical Engineering Journal 433,133678.
34. Wang, J., Dai, J., Chen, G., Jiang, F., 2022. Role of sulfur biogeochemical cycle in mercury methylation in estuarine sediments: A review. Journal of Hazardous Materials 423,126964.
35. Ahmar Siddiqui, M., Kumar Biswal, B., Siriweera, B., Chen, G., Wu, D., 2022. Integrated self-forming dynamic membrane (SFDM) and membrane-aerated biofilm reactor (MABR) system enhanced single-stage autotrophic nitrogen removal. Bioresource Technology 345,126554.
36. Zeng, Q., Huang, H., Tan, Y., Chen, G., Hao, T., 2022. Emerging electrochemistry-based process for sludge treatment and resources recovery: A review. Water Research 209,117939.
37. Ahmar Siddiqui M.; Biswal B.K.; Heynderickx P.M.; Kim J.; Khanal S.K.; Chen G.; Wu D., 2022. Dynamic anaerobic membrane bioreactor coupled with sulfate reduction (SrDMBR) for saline wastewater treatment. Bioresource Technology 346,126447.
38. Zeng, Q., Zan, F., Hao, T., Khanal, S.K., Chen, G., 2022. Sewage sludge digestion beyond biogas: Electrochemical pretreatment for biochemical. Water Research 208,117839.
39. Sun A.; Wang W.-X., 2022. A yeast-based biosensor for silver nanoparticle accumulation and cellular dissolution. Biosensors and Bioelectronics, 205, 114082.
40. Ma H.; How S.W.; Zhang Y.; Wu D., 2022. Adding monochloramine to control the growth of nitrite oxidizers and complete ammonia oxidizers in nitrifying moving-bed biofilm reactor. Bioresource Technology Reports, 20, 101235.
41. Wang X.; Wang W.-X., 2022. Cell-Type-Dependent Dissolution of CuO Nanoparticles and Efflux of Cu Ions following Cellular Internalization. Environmental Science and Technology, 56(17),12404-12415.
42. Deng, Y.-F., Zan, F.-X., Huang, H., Wu, D., Tang, W.-T., Chen, G.-H., 2022. Coupling sulfur-based denitrification with anammox for effective and stable nitrogen removal: A review. Water Research, 224, 119051.
43. Zeng Q.; Cooper Diaz-Ufano P.; Huang H.; Sato Y.; Lai S.W.K.; Ha Y.W.; Chen G., 2022. Development of LEEO® technology for efficient H2S control from saline wastewater sludge: From lab study to pilot trial. Journal of Water Process Engineering, 49, 103174.
44. Zhang X.; Choi P.J.; Khanzada N.K.; Sun J.; Wong P.W.; Guo J.; Ling L.; Wu D.; Jang A.; An A.K., 2022. FO membrane fabricated by layer-by-layer interfacial polymerisation and grafted sulfonamide group for improving chlorine resistance and water permeability. Journal of Membrane Science, 663, 121042.
45. Wang K.; Shang C.; Yin R.; Xiang Y., 2022. Generation of Reactive Nitrogen Species in UV Photolysis of Dichloramine and Their Incorporation into Nitrogenous Byproducts. Environmental Science and Technology.
46. Weng N.; Meng J.; Huo S.; Wu F.; Wang W.-X., 2022. Hemocytes of bivalve mollusks as cellular models in toxicological studies of metals and metal-based nanomaterials . Environmental Pollution, 312, 120082.
47. Hu Y.; Yan N.; Liu X.; Pei L.; Ye C.; Wang W.-X.; Lam J.W.Y.; Tang B.Z., 2022. In Situ Generation of N-Heteroaromatic Polymers: Metal-Free Multicomponent Polymerization for Photopatterning, Morphological Imaging, and Cr(VI) Sensing. CCS Chemistry, 4(7), 2308-2320.
48. Chen, Y., Huang, W., Chen, Y., Wu, M., Jia, R., & You, L., 2022. Influence of molecular weight of polysaccharides from laminaria japonica to LJP-based hydrogels: Anti-inflammatory activity in the wound healing process. Molecules, 27(20), 6915.
49. Luo Y.; He X.; Wang W.-X., 2022. Intracellular accumulation, dissolution, and distribution of AIEgen-coated silver nanoparticles in hemocyte subpopulations of oysters. Journal of Hazardous Materials, 440, 129849.
50. Hao T.; Xue W.; Zeng Q.; Liu R.; Chen G., 2022. Microbial communities and biosynthetic pathways for the production of sulfated polysaccharides in the activated sludge system. Science of the Total Environment, 850, 157950.
51. Zan F.; Ma H.; Xiao C.; Chen G.; Wu D., 2022. Moving-bed biofilm reactor for saline wastewater treatment: Different types of carriers, versatile nitrifying reactions, and functional microbial groups. Journal of Water Process Engineering. 50, 103274.
52. Wong P.W.; Yim V.M.; Guo J.; Chan B.S.; Deka B.J.; An A.K., 2022. Noninvasive Real-Time Monitoring of Wetting Progression in Membrane Distillation Using Impedance Spectroscopy. Environmental Science and Technology, 56(1), 535-545.
53. Yang M.; Fu H.; Wang W.-X., 2022. Responses of zebrafish (Danio rerio) cells to antibiotic erythromycin stress at the subcellular levels. Science of the Total Environment, 853, 158727.
54. Li J.; Cassol G.S.; Zhao J.; Sato Y.; Jing B.; Zhang Y.; Shang C.; Yang X.; Ao Z.; Chen G.; Yin R., 2022. Superfast degradation of micropollutants in water by reactive species generated from the reaction between chlorine dioxide and sulfite. Water Research, 222, 118886.

 

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2021

1. Tang, W.T., Hao, T.W. and Chen, G.H., 2021. Comparative metabolic modeling of multiple sulfate‐reducing prokaryotes reveals versatile energy conservation mechanisms. Biotechnology and Bioengineering, 118(7), pp. 2676-2693.
2. Huang, H., Ekama, G., Deng, Y.F., Chen, G.H. and Wu, D., 2021. Identifying the mechanisms of sludge reduction in the sulfidogenic oxic-settling anaerobic (SOSA) process: Side-stream sulfidogenesis-intensified sludge decay and mainstream extended aeration. Water Research, 189, p.116608.
3. Deng, Y.F., Wu, D., Huang, H., Cui, Y.X., van Loosdrecht, M.C. and Chen, G.H., 2021. Exploration and verification of the feasibility of sulfide-driven partial denitrification coupled with anammox for wastewater treatment. Water research, 193, p.116905.
4. Qian, J., Bai, L., Zhang, M., Chen, L., Yan, X., Sun, R., Zhang, M., Chen, G.H. and Wu, D., 2021. Achieving rapid thiosulfate-driven denitrification (TDD) in a granular sludge system. Water Research, 190, p.116716.
5. Siddiqui, M.A., Biswal, B.K., Saleem, M., Guan, D., Iqbal, A., Wu, D., Khanal, S.K. and Chen, G., 2021. Anaerobic self-forming dynamic membrane bioreactors (AnSFDMBRs) for wastewater treatment–recent advances, process optimization and perspectives. Bioresource Technology, p.125101.
6. Zan, F., Huang, H., Guo, G. and Chen, G., 2021. Sulfite pretreatment enhances the biodegradability of primary sludge and waste activated sludge towards cost-effective and carbon-neutral sludge treatment. Science of The Total Environment, 780, p.146634.
7. Liu, J., Zhang, Z., Xue, W., Siriweera, W.B., Chen, G. and Wu, D., 2021. Anaerobic digestion of saline waste activated sludge and recovering raw sulfated polysaccharides. Bioresource Technology, 335, p.125255.
8. Chen, L., Wu, D., Ekama, G.A. and Chen, G., 2021. Optimization of biochemical sulfide potential (BSP) assay for anaerobic biodegradability assessment. Water Research, 200, p.117216.
9. Huang, H., Zeng, Q., Heynderickx, P.M., Chen, G.H. and Wu, D., 2021. Electrochemical pretreatment (EPT) of waste activated sludge: Extracellular polymeric substances matrix destruction, sludge solubilisation and overall digestibility. Bioresource Technology, 330, p.125000.
10. Zhang, L., Qiu, Y.Y., Zhou, Y., Chen, G.H., van Loosdrecht, M.C. and Jiang, F., 2021. Elemental sulfur as electron donor and/or acceptor: Mechanisms, applications and perspectives for biological water and wastewater treatment. Water Research, p.117373.
11. Liu, X., Iqbal, A., Huang, H., Zan, F., Chen, G. and Wu, D., 2021. Life cycle assessment of deploying sludge minimization with (sulfidogenic-) oxic-settling-anaerobic configurations in sewage-sludge management systems. Bioresource Technology, 335, p.125266.
12. Deng, Y.F., Tang, W.T., Huang, H., Qian, J., Wu, D. and Chen, G.H., 2021. Development of a kinetic model to evaluate thiosulfate-driven denitrification and anammox (TDDA) process. Water Research, 198, p.117155.
13. Sato, Y., Zeng, Q., Meng, L. and Chen, G., 2021. Importance of Combined Electrochemical Process Sequence and Electrode Arrangements: A Lab-scale Trial of Real Reverse Osmosis Landfill Leachate Concentrate. Water Research, 192, p.116849.
14. Zan, F., Guo, G., Zheng, T. and Chen, G., 2021. Biofilm development in a pilot-scale gravity sewer: Physical characteristics, microstructure, and microbial communities. Environmental Research, 195, p.110838.
15. Jovanovic, O., Amábile-Cuevas, C.F., Shang, C., Wang, C. and Ngai, K.W., 2021. What Water Professionals Should Know about Antibiotics and Antibiotic Resistance: An Overview. ACS ES&T Water, 1(6), pp.1334-1351.
16. Zhao, J., Shang, C., Zhang, X., Yang, X. and Yin, R., 2021. The multiple roles of chlorite on the concentrations of radicals and ozone and formation of chlorate during UV photolysis of free chlorine. Water Research, 190, p.116680.
17. Aghdam, E., Xiang, Y., Ling, L. and Shang, C., 2021. New Insights into Micropollutant Abatement in Ammonia-Containing Water by the UV/Breakpoint Chlorination Process. ACS ES&T Water, 1(4), pp.1025-1034.
18. Song, Y., Ling, L., Westerhoff, P. and Shang, C., 2021. Evanescent waves modulate energy efficiency of photocatalysis within TiO2 coated optical fibers illuminated using LEDs. Nature Communications, 12(1), pp.1-9.
19. Wang, Y., Zhao, R., Liu, L., Li, B. and Zhang, T., 2021. Selective enrichment of comammox from activated sludge using antibiotics. Water Research, 197, p.117087.
20. Wang, Y., Qin, W., Jiang, X., Ju, F., Mao, Y., Zhang, A., Stahl, D.A. and Zhang, T., 2021. Seasonal Prevalence of Ammonia-Oxidizing Archaea in a Full-Scale Municipal Wastewater Treatment Plant Treating Saline Wastewater Revealed by a 6-Year Time-Series Analysis. Environmental Science & Technology, 55(4), pp.2662-2673.
21. Yan, N., Tang, B.Z. and Wang, W.X., 2021. Cell Cycle Control of Nanoplastics Internalization in Phytoplankton. ACS nano, 15(7), 12237-12248.
22. Wang, W.X., 2021. Bioimaging of metals in environmental toxicological studies: Linking localization and functionality. Critical Reviews in Environmental Science and Technology, 52:19, 3384-3414 DOI: https://doi.org/10.1080/10643389.2021.1934368
23. Sun, A., Tang, B.Z., Tsim, K.W.K. and Wang, W.X., 2021. Unique interplay between Zn 2+ and nZnO determined the dynamic cellular stress in zebrafish cells. Environmental Science: Nano, DOI: 10.1039/D1EN00146A.
24. Li, Y. and Wang, W.X., 2021. Uptake, intracellular dissolution, and cytotoxicity of silver nanowires in cell models. Chemosphere, 281, p.130762.
25. Yuan, L., Shi, X., Tang, B.Z. and Wang, W.X., 2021. Real-time in vitro monitoring of the subcellular toxicity of inorganic Hg and methylmercury in zebrafish cells. Aquatic Toxicology, 236, p.105859.
26. Yan, N., Tang, B.Z. and Wang, W.X., 2021. Intracellular trafficking of silver nanoparticles and silver ions determined their specific mitotoxicity to the zebrafish cell line. Environmental Science: Nano, 8(5), pp.1364-1375.
27. Yan, N. and Wang, W.X., 2021. Novel imaging of silver nanoparticle uptake by a unicellular alga and trophic transfer to Daphnia magna. Environmental Science & Technology, 55(8), pp.5143-5151.
28. Li, Y. and Wang, W.X., 2021. Silver nanowires kinetics and real-time imaging of in situ Ag ion dissolution in Daphnia magna. Science of the Total Environment, 782, p.146933.
29. Choi, P.J., Lao, J.Y., Lam, P.K.S., Im, S.J., Jang, A. and An, A.K., 2021. Low-pressure volume retarded osmosis for removal of per-and polyfluoroalkyl substances. Water Research, 194, p.116929.
30. Farid, M.U., Kharraz, J.A. and An, A.K., 2021. Plasmonic Titanium Nitride Nano-enabled Membranes with High Structural Stability for Efficient Photothermal Desalination. ACS Applied Materials & Interfaces, 13(3), pp.3805-3815.
31. Zhang, B., Gu, Q., Wang, C., Gao, Q., Guo, J., Wong, P.W., Liu, C.T. and An, A.K., 2021. Self-Assembled Hydrophobic/Hydrophilic Porphyrin-Ti3C2T x MXene Janus Membrane for Dual-Functional Enabled Photothermal Desalination. ACS Applied Materials & Interfaces, 13(3), pp.3762-3770.
32. Deka, B.J., Guo, J., Wong, P.W., Khanzada, N.K., Kharraz, J.A., Tsang, C.W. and An, A.K., 2021. A Conductive Hydrophobic Polyaniline Sandwiched Polyvinylidene Fluoride Membrane for Early Detection of Surfactant-Induced Wetting in Membrane Distillation Using Impedance. ACS Applied Polymer Materials, 3(2), pp.679-690.
33. Deka, B.J., Guo, J. and An, A.K., 2021. Robust dual-layered omniphobic electrospun membrane with anti-wetting and anti-scaling functionalised for membrane distillation application. Journal of Membrane Science, 624, p.119089.
34. Lim, S., Choi, P.J., An, A.K., Han, D.S., Phuntsho, S. and Shon, H., 2021. Submerged versus side-stream osmotic membrane bioreactors using an outer-selective hollow fiber osmotic membrane for desalination. Desalination, 515, p.115196.
35. Gong, Y., Ma, Y., Cheung, P.C.K., You, L., Liao, L., Pedisić, S. and Kulikouskaya, V., 2021. Structural characteristics and anti-inflammatory activity of UV/H2O2-treated algal sulfated polysaccharide from Gracilaria lemaneiformis. Food and Chemical Toxicology, 152, p.112157.
36. Li, J., Qin, X., Chen, G. and Chen, G., 2021. The effect of ruthenium content on the stability and activity of Ti/RuO2-Sb2O5-SnO2 for oxygen evolution. Journal of the Taiwan Institute of Chemical Engineers, 125, pp. 186-194
37. Li X.; Hao T.; Tang Y.; Chen G., 2021. A “Seawater-in-Sludge” approach for capacitive biochar production via the alkaline and alkaline earth metals activation. Frontiers of Environmental Science & Engineering 15(1), p.3.
38. Wong P.W.; Guo J.; Khanzada N.K.; Yim V.M.W.; Kyoungjin A., 2021. In-situ 3D fouling visualization of membrane distillation treating industrial textile wastewater by optical coherence tomography imaging. Water Research, 205, 117668.
39. Cheng, Z., Ling, L., & Shang, C., 2021. Near-ultraviolet light-driven photocatalytic chlorine activation process with novel chlorine activation mechanisms. ACS ES and T Water, 1(9), 2067-2075.
40. Li Y.; Shang S.; Shang J.; Wang W.-X., 2021. Toxicity assessment and underlying mechanisms of multiple metal organic frameworks using the green algae Chlamydomonas reinhardtii model. Environmental Pollution, 291, 118199.
41. Wang X, Wang W-X., 2021. Intracellular biotransformation of Cu(II)/Cu(I) explained high Cu toxicity to phytoplankton Chlamydomonas reinhardtii. Environmental Science & Technology 55: 14772–14781.
42. Yan N, Hu Y, Tang BZ, Wang W-X., 2021. Real-time 3D framework tracing of extracellular polymeric substances by an AIE-active nanoprobe. ACS: Sensors. 6(11), 4206-4216.
43. Huang, Y., Deng, Y., Law, J. C.-F., Yang, Y., Ding, J., Leung, K. S.-Y., & Zhang, T., 2021. Acesulfame aerobic biodegradation by enriched consortia and Chelatococcus spp.: Kinetics, transformation products, and genomic characterization. Water Research, 202, 117454.
44. Yang, Y., Zhang, A.-N., Che, Y., Liu, L., Deng, Y., & Zhang, T., 2021. Underrepresented high diversity of class 1 integrons in the environment uncovered by PacBio sequencing using a new primer. Science of the Total Environment, 787, 147611.
45. Jia W.; Kharraz J.A.; Sun J.; An A.K., 2021. Hierarchical Janus membrane via a sequential electrospray coating method with wetting and fouling resistance for membrane distillation. Desalination, 520, 115313.
46. Guo, J., Deka, B.J., Wong, P.W., Sun, J., An, A.K., 2021. Fabrication of robust green superhydrophobic hybrid nanofiber-nanosphere membrane for membrane distillation. Desalination, 520, 115314.
47. Yin, R., Peng, J., Sun, J., Li, C., Xia, D., & Shang, C., 2021. Simultaneous removal of hydrogen sulfide, phosphate and emerging organic contaminants, and improvement of sludge dewaterability by oxidant dosing in sulfide-iron-laden sludge. Water Research, 203, 117557.

 

Text Area
 

2020

1. Lin, S., Hao, T., Li, X., Xiao, Y. and Chen, G., 2020. Pin-point denitrification for groundwater purification without direct chemical dosing: Demonstration of a two-chamber sulfide-driven denitrifying microbial electrochemical system. Water Research, 182, p.115918.
2.   Zan F.; Dai J.; Jiang F.; Ekama G.A.; Chen G., 2020. Ground food waste discharge to sewer enhances methane gas emission: A lab-scale investigation. Water Research, 174, 115616.
3. Zeng, Q., Hao, T., Yuan, Z. and Chen, G., 2020. Dewaterability enhancement and sulfide mitigation of CEPT sludge by electrochemical pretreatment. Water research, 176, p.115727.
4. Biswal, B.K., Wang, B., Tang, C.J., Chen, G.H. and Wu, D., 2020. Elucidating the effect of mixing technologies on dynamics of microbial communities and their correlations with granular sludge properties in a high-rate sulfidogenic anaerobic bioreactor for saline wastewater treatment. Bioresource technology, 297, p.122397.
5. Biswal, B.K., Wang, B., Chen, L., Chen, G.H. and Wu, D., 2020. Rational design of sulfidogenic granular sludge reactor with clostridia as dominant bacteria for energy-efficient sulfate-laden wastewater treatment. Bioresource Technology, 317, p.124017.
6. Biswal, B.K., Huang, H., Dai, J., Chen, G.H. and Wu, D., 2020. Impact of low-thermal pretreatment on physicochemical properties of saline waste activated sludge, hydrolysis of organics and methane yield in anaerobic digestion. Bioresource technology, 297, p.122423.
7. Huang, H., Biswal, B.K., Chen, G.H. and Wu, D., 2020. Sulfidogenic anaerobic digestion of sulfate-laden waste activated sludge: Evaluation on reactor performance and dynamics of microbial community. Bioresource technology, 297, p.122396.
8. Zan, F., Iqbal, A., Guo, G., Liu, X., Dai, J., Ekama, G.A. and Chen, G., 2020. Integrated food waste management with wastewater treatment in Hong Kong: Transformation, energy balance and economic analysis. Water Research, 184, p.116155.
9. Cheng, Z., Ling, L., Wu, Z., Fang, J., Westerhoff, P. and Shang, C., 2020. Novel Visible Light-Driven Photocatalytic Chlorine Activation Process for Carbamazepine Degradation in Drinking Water. Environmental science & technology, 54(18), pp.11584-11593.

10.

Ruan, X., Xiang, Y., Shang, C., Cheng, S., Liu, J., Hao, Z. and Yang, X., 2020. Molecular characterization of transformation and halogenation of natural organic matter during the UV/chlorine AOP using FT-ICR mass spectrometry. Journal of Environmental Sciences, 102, pp.24-36.
11. Xiang, Y., Gonsior, M., Schmitt-Kopplin, P. and Shang, C., 2020. Influence of the UV/H2O2 Advanced Oxidation Process on Dissolved Organic Matter and the Connection between Elemental Composition and Disinfection Byproduct Formation. Environmental Science & Technology, 54(23), pp.14964-14973.
12. Yin, R., Blatchley III, E.R. and Shang, C., 2020. UV Photolysis of Mono-and Dichloramine Using UV-LEDs as Radiation Sources: Photodecay Rates and Radical Concentrations. Environmental Science & Technology, 54(13), pp.8420-8429.
13. Yin, R., Ling, L., Lu, S., Li, H., Li, C. and Shang, C., 2020. Degradation of aliphatic halogenated contaminants in water by UVA/Cu–TiO2 and UVA/TiO2 photocatalytic processes: Structure-activity relationship and role of reactive species. Chemosphere, 260, p.127644.
14. Yin, R. and Shang, C., 2020. Removal of micropollutants in drinking water using UV-LED/chlorine advanced oxidation process followed by activated carbon adsorption. Water Research, 185, p.116297.
15. Yan, N., Tsim, S.M.J., He, X., Tang, B.Z. and Wang, W.X., 2020. Direct Visualization and Quantification of Maternal Transfer of Silver Nanoparticles in Zooplankton. Environmental science & technology, 54(17), pp.10763-10771.
16. Zhang, L., Jiang, H. and Wang, W.X., 2020. Subcellular Imaging of Localization and Transformation of Silver Nanoparticles in the Oyster Larvae. Environmental Science & Technology, 54(18), pp.11434-11442.
17. Khanzada, N.K., Rehman, S., Leu, S.Y. and An, A.K., 2020. Evaluation of anti-bacterial adhesion performance of polydopamine cross-linked graphene oxide RO membrane via in situ optical coherence tomography. Desalination, 479, p.114339.
18. Shang, W., Sun, F., Jia, W., Guo, J., Yin, S., Wong, P.W. and An, A.K., 2020. High-performance nanofiltration membrane structured with enhanced stripe nano-morphology. Journal of Membrane Science, 600, p.117852.
19. Lv, X., Yan, D.Y., Lam, F.L.Y., Ng, Y.H., Yin, S. and An, A.K., 2020. Solvothermal synthesis of copper-doped BiOBr microflowers with enhanced adsorption and visible-light driven photocatalytic degradation of norfloxacin. Chemical Engineering Journal, 401, p.126012.
20. Farid, M.U., Kharraz, J.A., Wang, P. and An, A.K., 2020. High-efficiency solar-driven water desalination using a thermally isolated plasmonic membrane. Journal of Cleaner Production, 271, p.122684.
21. Li, W., von Eiff, D. and An, A.K., 2020. Analyzing the effects of institutional capacity on sustainable water governance. Sustainability Science, 16(1), pp.169-181.
22. Jia, W., Kharraz, J.A., Guo, J. and An, A.K., 2020. Superhydrophobic (polyvinylidene fluoride-co-hexafluoropropylene)/(polystyrene) composite membrane via a novel hybrid electrospin-electrospray process. Journal of Membrane Science, 611, p.118360.
23. Lam, K.L., Wu, J., Wu, D., Chen, G. and Cheung, P.C.K., 2020. 2020s: The Homecoming Decade of High-Throughput Investigation of Polysaccharides. Journal of Agricultural and Food Chemistry, 68(32), pp. 8511–8513
24. Liu, L., Wang, Y., Che, Y., Chen, Y., Xia, Y., Luo, R., Cheng, S.H., Zheng, C. and Zhang, T., 2020. High-quality bacterial genomes of a partial-nitritation/anammox system by an iterative hybrid assembly method. Microbiome, 8(1), pp.1-17.
25. Zan, F., Zeng, Q., Chi, K., Hao, T. and Ekama, G.A., 2020. A novel approach for rapidly measuring volatile fatty acids in anaerobic process. Water Research, 182, p.115960.
26. Iqbal A.; Ekama G.A.; Zan F.; Liu X.; Chui H.-K.; Chen G.-H., 2020. Potential for co-disposal and treatment of food waste with sewage: A plant-wide steady-state model evaluation. Water Research, 184, 116175.
27.

Li L.-G.; Huang Q.; Yin X.; Zhang T., 2020. Source tracking of antibiotic resistance genes in the environment — Challenges, progress, and prospects. Water Research, 185, 116127.

28. Zan F.; Dai J.; Jiang F.; Chan R.C.; Chen G., 2020. Test of transformation mechanism of food waste and its impacts on sulfide and methane production in the sewer system. Water Science and Technology, 81(4), 845-852.