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Can Guo 郭灿
MS硕士, 2015-2018. 

Current 目前: VANKE. 万科企业股份有限公司

Publications:

1.         Guo, C.; Chang, H.; Liu, B.*; He, Q.; Xiong, B.; Kumar, M.; Zydney, A. L., A combined ultrafiltration-reverse osmosis process for external reuse of Weiyuan shale gas flowback and produced water. Environmental Science-Water Research & Technology 2018, 4, (7), 942-955. (Impact Factor: 3.449)

2.         Guo, C.; Liu, B.*; Chen, C.; Chang, H.; Wang, S.; He, M.; Crittenden, J., Development of an efficient approach for separating bubbles and flocs in a submerged membrane ultrafiltration process. Water Science and Technology-Water Supply 2018, 18, (3), 808-818. (Impact Factor: 0.900)

3.         He, M.; Chen, C.; Guo, C.; Wang, S.; Chang, H.; Liu, B.*, Optimization of aeration conditions in the hybrid process of coagulation-ultrafiltration with air sparging. Journal of Water Supply Research and Technology-Aqua 2017, 66, (8), 632-640. (Impact Factor: 1.319)

4.         Chang, H.; Liu, B.*; Yang, B.; Yang, X.; Guo, C.; He, Q.; Liang, S.; Chen, S.; Yang, P., An integrated coagulation-ultrafiltration-nanofiltration process for internal reuse of shale gas flowback and produced water. Separation and Purification Technology 2019, 211, 310-321. (Impact Factor: 5.774)

5.         Guo, C.; He, M.; Li, R.; Liu, Y.; Wang, S.; Liu, B.*, Influence of Aeration Rates on Membrane Fouling in Coagulation/Bubbling/Ultrafiltration Process. China Water & Wastewater 2015, 31, (19), 13-15+20. (In Chinese)

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Meibo He 何美博
MS硕士,2015-2018.  

Current 目前:National University of Singapore.新加坡国立大学博士

Publications:

1.         He, M.; Li, T.; Hu, M.; Chen, C.; Liu, B.*; Crittenden, J.; Chu, L.-Y.; Ng, H. Y., Performance improvement for thin-film composite nanofiltration membranes prepared on PSf/PSf-g-PEG blended substrates. Separation and Purification Technology 2020, 230, 115855. (Impact Factor: 5.774)

2.         He, M.; Liu, Z.; Li, T.; Chen, C.; Liu, B.*; Crittenden, J. C., Effect of adding a smart potassium ion-responsive copolymer into polysulfone support membrane on the performance of thin-film composite nanofiltration membrane. Frontiers of Chemical Science and Engineering 2019, 13, (2), 400-414. (Impact Factor: 3.552)

3.         Guo, C.; Liu, B.*; Chen, C.; Chang, H.; Wang, S.; He, M.; Crittenden, J., Development of an efficient approach for separating bubbles and flocs in a submerged membrane ultrafiltration process. Water Science and Technology-Water Supply 2018, 18, (3), 808-818. (Impact Factor: 0.900)

4.         He, M.; Chen, C.; Guo, C.; Wang, S.; Chang, H.; Liu, B.*, Optimization of aeration conditions in the hybrid process of coagulation-ultrafiltration with air sparging. Journal of Water Supply Research and Technology-Aqua 2017, 66, (8), 632-640. (Impact Factor: 1.319)

5.         Guo, C.; He, M.; Li, R.; Liu, Y.; Wang, S.; Liu, B.*, Influence of Aeration Rates on Membrane Fouling in Coagulation/Bubbling/Ultrafiltration Process. China Water & Wastewater 2015, 31, (19), 13-15+20. (In Chinese)

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Shuai Wang 王帅
MS硕士,2015-2018.   

Current 目前: POWERCHINA.中国电建集团昆明勘测设计研究院有限公司

Publications:

1.         Wang, S.; Li, T.; Chen, C.; Chen, S.; Liu, B.*; Crittenden, J., Non-woven PET fabric reinforced and enhanced the performance of ultrafiltration membranes composed of PVDF blended with PVDF-g-PEGMA for industrial applications. Applied Surface Science 2018, 435, 1072-1079. (Impact Factor: 6.182)

2.         Wang, S.; Li, T.; Chen, C.; Liu, B.*; Crittenden, J. C., PVDF ultrafiltration membranes of controlled performance via blending PVDF-g-PEGMA copolymer synthesized under different reaction times. Frontiers of Environmental Science & Engineering 2018, 12, (2). (Impact Factor: 4.053)

3.         Liu, B.*; Wang, S.; Zhao, P.; Liang, H.; Zhang, W.; Crittenden, J., High-performance polyamide thin-film composite nanofiltration membrane: Role of thermal treatment. Applied Surface Science 2018, 435, 415-423. (Impact Factor: 6.182)

4.         Wu, H.; Li, T.; Liu, B.*; Chen, C.; Wang, S.; Crittenden, J. C., Blended PVC/PVC-g-PEGMA ultrafiltration membranes with enhanced performance and antifouling properties. Applied Surface Science 2018, 455, 987-996. (Impact Factor: 6.182)

5.         Guo, C.; Liu, B.*; Chen, C.; Chang, H.; Wang, S.; He, M.; Crittenden, J., Development of an efficient approach for separating bubbles and flocs in a submerged membrane ultrafiltration process. Water Science and Technology-Water Supply 2018, 18, (3), 808-818. (Impact Factor: 0.900)

6.         He, M.; Chen, C.; Guo, C.; Wang, S.; Chang, H.; Liu, B.*, Optimization of aeration conditions in the hybrid process of coagulation-ultrafiltration with air sparging. Journal of Water Supply Research and Technology-Aqua 2017, 66, (8), 632-640. (Impact Factor: 1.319)

7.         Guo, C.; He, M.; Li, R.; Liu, Y.; Wang, S.; Liu, B.*, Influence of Aeration Rates on Membrane Fouling in Coagulation/Bubbling/Ultrafiltration Process. China Water & Wastewater 2015, 31, (19), 13-15+20. (In Chinese)

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Pingju Zhao 赵苹菊

MS硕士, 2016-2019.   

Current 目前: Patent Examination Cooperation Sichuan Center of the Patent Office, CNIPA.国家知识产权局专利局专利审查协作四川中心

Publications:

1.         Zhao, P.; Bai, Y.; Liu, B.*; Chang, H.; Cao, Y.; Fang, J., Process optimization for producing ultrapure water with high resistivity and low total organic carbon. Process Safety and Environmental Protection 2019,126, 232-241. (Impact Factor: 4.966)

2.         Liu, B.*; Wang, S.; Zhao, P.; Liang, H.; Zhang, W.; Crittenden, J., High-performance polyamide thin-film composite nanofiltration membrane: Role of thermal treatment. Applied Surface Science 2018, 435, 415-423. (Impact Factor: 6.182)

3.         Liu, B.*; Chen, C.; Zhao, P.; Li, T.; Liu, C.; Wang, Q.; Chen, Y.; Crittenden, J., Thin-film composite forward osmosis membranes with substrate layer composed of polysulfone blended with PEG or polysulfone grafted PEG methyl ether methacrylate. Frontiers of Chemical Science and Engineering 2016, 10, (4), 562-574. (Impact Factor: 3.552)

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Haibo Wu 吴海波

MS硕士, 2016-2019.   

Current目前:Municipal Engineering Design and Research Institute of Haikou 海口市政工程设计与研究院

Publications:

1.         Wu, H.; Li, T.; Liu, B.*; Chen, C.; Wang, S.; Crittenden, J. C., Blended PVC/PVC-g-PEGMA ultrafiltration membranes with enhanced performance and antifouling properties. Applied Surface Science 2018, 455, 987-996. (Impact Factor: 6.182)

2.         Xie, W.; Li, T.; Chen, C.; Wu, H.; Liang, S.; Chang, H.; Liu, B.*; Drioli, E.; Wang, Q.; Crittenden, J. C., Using the Green Solvent Dimethyl Sulfoxide To Replace Traditional Solvents Partly and Fabricating PVC/PVC-g-PEGMA Blended Ultrafiltration Membranes with High Permeability and Rejection. Industrial & Engineering Chemistry Research 2019, 58, (16), 6413-6423. (Impact Factor: 3.573, Front Cover)

3.         Wu, Q.; Xie, W.; Wu, H.; Wang, L.; Liang, S.; Chang, H.; Liu, B.*, Effect of volatile solvent and evaporation time on formation and performance of PVC/PVC-g-PEGMA blended membranes. RSC Advances2019, 9, (59), 34486-34495. (Impact Factor: 3.119)

4.         Wu, Q.; Tiraferri, A.; Wu, H.; Xie, W.; Liu, B.*, Improving the Performance of PVDF/PVDF-g-PEGMA Ultrafiltration Membranes by Partial Solvent Substitution with Green Solvent Dimethyl Sulfoxide during Fabrication. ACS Omega 2019, 4, (22), 19799-19807. (Impact Factor: 2.870, Front Cover)

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Wei Shang 尚伟

MS硕士, 2017-2020. 

Current目前:内蒙古自治区党委办公厅

Publications:

1.         Shang, W.; Tiraferri, A.; He, Q.; Li, N.; Chang, H.; Liu, C.; Liu, B.*, Reuse of shale gas flowback and produced water: Effects of coagulation and adsorption on ultrafiltration, reverse osmosis combined process. Science of the Total Environment 2019, 689, 47-56. (Impact Factor: 6.551)

2.         Shang, W.; Liu, Y.; He, Q.; Liu, S.; Zhu, Y.; Tong, T.; Liu, B.*, Efficient adsorption of organic matters and ions by porous biochar aerogel as pre-treatment of ultrafiltration for shale gas wastewater reuse. Chemical Engineering Journal Advances 2020, 2, 100011. 

3.         Novichkova, A.; Shang, W.; Yang, Y.; Qiao, X.; Tang, Y.; Liu, B.*, Effect of Ultrafiltration–Reverse-Osmosis-Treated Shale Gas Wastewater on Seed Germination and Plant Growth. Energy & Fuels 2021, 35, (2), 1629-1637. (Impact Factor: 3.421)

4.         Li, J.; Chang, H.; Tang, P.; Shang, W.; He, Q.; Liu, B.*, Effects of membrane property and hydrostatic pressure on the performance of gravity-driven membrane for shale gas flowback and produced water treatment. Journal of Water Process Engineering 2020, 33, 101117. (Impact Factor: 3.465)

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Yu Sun 孙玉

Co-advised with Prof. Ping Yang

MS硕士, 2017-2020. 

Current目前:中国石油集团川庆钻探工程有限公司安全环保质量监督检测研究院

Publications:

1.         Sun, Y.; Wu, M.; Tong, T.; Liu, P.; Tang, P.; Gan, Z.; Yang, P.*; He, Q.; Liu, B.*, Organic compounds in Weiyuan shale gas produced water: Identification, detection and rejection by ultrafiltration-reverse osmosis processes. Chemical Engineering Journal 2021, 412, 128699. (Impact Factor: 10.652)

2.         Tang, P.; Li, J.; Li, T.; Tian, L.; Sun, Y.; Xie, W.; He, Q.; Chang, H.; Tiraferri, A.; Liu, B.*, Efficient integrated module of gravity driven membrane filtration, solar aeration and GAC adsorption for pretreatment of shale gas wastewater. Journal of Hazardous materials 2021, 405, 124166. (Impact Factor: 9.038)

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Jialin Li 李佳麟

MS硕士, 2017-2020. 

Current 目前: Patent Examination Cooperation Sichuan Center of the Patent Office, CNIPA.国家知识产权局专利局专利审查协作四川中心

Publications:

1.         Li, J.; Chang, H.; Tang, P.; Shang, W.; He, Q.; Liu, B.*, Effects of membrane property and hydrostatic pressure on the performance of gravity-driven membrane for shale gas flowback and produced water treatment. Journal of Water Process Engineering 2020, 33, 101117. (Impact Factor: 3.465)

2.         Tang, P.; Li, J.; Li, T.; Tian, L.; Sun, Y.; Xie, W.; He, Q.; Chang, H.; Tiraferri, A.; Liu, B.*, Efficient integrated module of gravity driven membrane filtration, solar aeration and GAC adsorption for pretreatment of shale gas wastewater. Journal of Hazardous materials 2021, 405, 124166. (Impact Factor: 9.038)

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Peng Tang 唐鹏

Co-advised with Prof. Yongli Zhang

362476466@qq.com

BS, Sichuan University, 2018

1.         Xie, W.; Tang, P.; Wu, Q.; Chen, C.; Song, Z.; Li, T.; Bai, Y.; Lin, S.; Tiraferri, A.; Liu, B.*, Solar-driven desalination and resource recovery of shale gas wastewater by on-site interfacial evaporation. Chemical Engineering Journal 2022, 428, 132624. (Impact Factor: 13.273)

2.         Tang, P.; Liu, B.*; Xie, W.; Wang, P.; He, Q.; Bao, J.; Zhang, Y.*; Zhang, Z.; Li, J.; Ma, J., Synergistic mechanism of combined ferrate and ultrafiltration process for shale gas wastewater treatment. Journal of Membrane Science 2022, 641, 119921. (Impact Factor: 8.742)

3.         Liu, X.; Tang, P.; Liu, Y.; Xie, W.; Chen, C.; Li, T.; He, Q.; Bao, J.; Tiraferri, A.; Liu, B.*, Efficient removal of organic compounds from shale gas wastewater by coupled ozonation and moving-bed-biofilm submerged membrane bioreactor. Bioresource Technology 2022, 344, 126191. (Impact Factor: 9.642)

4.         Tang, P.; Xie, W.; Tiraferri, A.; Zhang, Y.; Zhu, J.; Li, J.; Lin, D.; Crittenden, J. C.; Liu, B.*, Organics removal from shale gas wastewater by pre-oxidation combined with biologically active filtration. Water Research 2021, 196, 117041. (Impact Factor: 11.236)

5.         Tang, P.; Shi, M.; Li, X.; Zhang, Y.; Lin, D.; Li, T.*; Zhang, W.; Tiraferri, A.; Liu, B.*, Can pre-ozonation be combined with gravity-driven membrane filtration to treat shale gas wastewater? Science of the Total Environment 2021, 797, 149181. (Impact Factor: 7.963)

6.         Tang, P.; Li, J.; Li, T.; Tian, L.; Sun, Y.; Xie, W.; He, Q.; Chang, H.; Tiraferri, A.; Liu, B.*, Efficient integrated module of gravity driven membrane filtration, solar aeration and GAC adsorption for pretreatment of shale gas wastewater. Journal of Hazardous materials 2021, 405, 124166. (Impact Factor: 10.588)

7.         Sun, Y.; Wu, M.; Tong, T.; Liu, P.; Tang, P.; Gan, Z.; Yang, P.*; He, Q.; Liu, B.*, Organic compounds in Weiyuan shale gas produced water: Identification, detection and rejection by ultrafiltration-reverse osmosis processes. Chemical Engineering Journal 2021, 412, 128699. (Impact Factor: 13.273)

8.         Liu, Y.; Tang, P.; Zhu, Y.; Xie, W.; Yang, P.*; Zhang, Z.; Liu, B.*, Green aerogel adsorbent for removal of organic compounds in shale gas wastewater: High-performance tuning and adsorption mechanism. Chemical Engineering Journal 2021, 416, 129100. (Impact Factor: 13.273)

9.         Xie, W.; Tiraferri, A.; Liu, B.*; Tang, P.; Wang, F.; Chen, S.; Figoli, A.; Chu, L.-Y., First Exploration on a Poly(vinyl chloride) Ultrafiltration Membrane Prepared by Using the Sustainable Green Solvent PolarClean. ACS Sustainable Chemistry & Engineering 2020, 8, (1), 91-101. (Impact Factor: 8.198, Front Cover)

10.       Tian, L.#; Chang, H.#; Tang, P.; Li, T.; Zhang, X.; Liu, S.; He, Q.; Wang, T.; Yang, J.; Bai, Y.; Vidic, R. D.; Crittenden, J. C.; Liu, B.*, Rare Earth Elements Occurrence and Economical Recovery Strategy from Shale Gas Wastewater in the Sichuan Basin, China. ACS Sustainable Chemistry & Engineering 2020, 8, (32), 11914-11920. (Impact Factor: 8.198, Front Cover)

11.       Tang, P.; Liu, B.*; Zhang, Y.*; Chang, H.; Zhou, P.; Feng, M.; Sharma, V. K., Sustainable reuse of shale gas wastewater by pre-ozonation with ultrafiltration-reverse osmosis. Chemical Engineering Journal 2020, 123743. (Impact Factor: 13.273)

12.       Li, J.#; Chang, H.#; Tang, P.; Shang, W.; He, Q.; Liu, B.*, Effects of membrane property and hydrostatic pressure on the performance of gravity-driven membrane for shale gas flowback and produced water treatment. Journal of Water Process Engineering 2020, 33, 101117. (Impact Factor: 5.485)

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Yuanhui Liu 刘元慧

Co-advised with Prof. Ping Yang

303134370@qq.com

MS,  Hebei University of Engineering, 2019

1.         Liu, Y.; Wu, Q.; Chen, C.; Li, T.; Liu, S.; He, Q.; Yang, P.*; Bai, Y.; Liu, B.*, An efficient system of aerogel adsorbent combined with membranes for reuse of shale gas wastewater. Desalination 2022, 526, 115545. 

2.         Liu, X.; Tang, P.; Liu, Y.; Xie, W.; Chen, C.; Li, T.; He, Q.; Bao, J.; Tiraferri, A.; Liu, B.*, Efficient removal of organic compounds from shale gas wastewater by coupled ozonation and moving-bed-biofilm submerged membrane bioreactor. Bioresource Technology 2022, 344, 126191. (Impact Factor: 9.642)

3.         Liu, Y.; Tang, P.; Zhu, Y.; Xie, W.; Yang, P.*; Zhang, Z.; Liu, B.*, Green aerogel adsorbent for removal of organic compounds in shale gas wastewater: High-performance tuning and adsorption mechanism. Chemical Engineering Journal 2021, 416, 129100. (Impact Factor: 13.273)

4.         Hu, M.; Wu, Q.; Chen, C.; Liang, S.; Liu, Y.; Bai, Y.; Tiraferri, A.; Liu, B.*, Facile preparation of antifouling nanofiltration membrane by grafting zwitterions for reuse of shale gas wastewater. Separation and Purification Technology 2021, 276, 119310. (Impact Factor: 7.312)

5.         Shang, W.; Liu, Y.; He, Q.; Liu, S.; Zhu, Y.; Tong, T.; Liu, B.*, Efficient adsorption of organic matters and ions by porous biochar aerogel as pre-treatment of ultrafiltration for shale gas wastewater reuse. Chemical Engineering Journal Advances 2020, 2, 100011. 

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Minli Hu 胡敏莉

785987844@qq.com

BS, Sichuan University, 2019

1.    He, M.; Li, T.; Hu, M.; Chen, C.; Liu, B.*; Crittenden, J.; Chu, L.-Y.; Ng, H. Y., Performance improvement for thin-film composite nanofiltration membranes prepared on PSf/PSf-g-PEG blended substrates. Separation and Purification Technology 2020, 230, 115855.  (Impact Factor: 7.312)

2.  Hu, M.; Wu, Q.; Chen, C.; Liang, S.; Liu, Y.; Bai, Y.; Tiraferri, A.; Liu, B.*,Facile preparation of antifouling nanofiltration membrane by grafting zwitterions for reuse of shale gas wastewater Separation and Purification Technology. 2021, 276, 119310.  (Impact Factor: 7.312)

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Xinyu Liu 刘馨钰

1797578442@qq.com

BS, Sichuan University, 2019

1.  Liu, X.; Tang, P.; Liu, Y.; Xie, W.; Chen, C.; Li, T.; He, Q.; Bao, J.; Tiraferri, A.; Liu, B.*, Efficient removal of organic compounds from shale gas wastewater by coupled ozonation and moving-bed-biofilm submerged membrane bioreactor. Bioresource Technology 2022, 344, 126191. (Impact Factor: 9.642)

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