Sections
Text Area
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. |
Text Area
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. |
Text Area
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. |