出生年月

1988年4月

技术职务

讲师

行政职务

无

电子邮箱

caihong.liu@cqu.edu.cn

通信地址

公司B区生态与赌足球最好的网站

1.主要研究方向:

·膜法水处理理论与技术

·膜材料的制备、改性及膜污染控制

·生物膜法水处理技术

·水中污染物的深度处理技术

2.社会兼职、国内外学术团体任职情况:

Environmental Science & Technology、Environmental Science & Technology Letters、Water Research、Journal of Membrane Science等学术期刊审稿人

3.教育及工作经历

（1）教育经历

2007.09-2011.07四川大学给水排水工程专业工学学士学位

2011.09-2013.07哈尔滨工业大学市政工程专业工学硕士学位

2013.09-2018.05哈尔滨工业大学市政工程专业工学博士学位

2014.12-2016.12耶鲁大学环境工程专业联合培养博士

（2）工作经历

2018.06-今 赌足球最好的网站(中国)有限公司 讲师、硕导

4.主持或主研的科学研究项目

（1）公司中央高校基本科研基金项目，课题“重力流超滤系统中膜表面功能层结构调控与过滤效能”，2019.1-2020.1，主持

（2）公司中央高校基本科研业务费创新人才专项基金项目，低污染正渗透聚酰胺复合膜处理页岩气废水研究，2018.6-2021.5，主持

（3）美国国防部战略环境研究发展计划项目，Robust Membranes for Sustainable Wastewater Treatment by Forward Osmosis in FOBs (SERDP, ER-2217)，2014-2017，主研

（4）国家重点研发计划，水冲农村户厕粪污收储及资源化利用技术与示范(2018YFC1903203)，2018.12-2022.12，主研

5.主要学术论文与专利

代表性论文：

1.C. Liu*, D. Song, W. Zhang, Q. He, X. Huangfu, S. Sun, Z. Sun, W. Cheng, J. Ma*, Constructing zwitterionic polymer brush layer to enhance gravity-driven membrane performance by governing biofilm formation,Water research, (2019),115181.

2. C. Liu, A.F. Faria, J. Ma*, M. Elimelech*, Mitigation of Biofilm Development on Thin-Film Composite Membranes Functionalized with Zwitterionic Polymers and Silver Nanoparticles,Environmental Science & Technology, 51 (2017) 182-191. (ESI高被引论文)

3.C. Liu, J. Lee, J. Ma*, M. Elimelech*, Antifouling Thin- Film Composite Membranes by Controlled Architecture of Zwitterionic Polymer Brush Layer,Environmental Science & Technology, 51 (2017) 2161-2169. (ESI高被引论文)

4.C. Liu, J. Lee, C. Small, J. Ma*, M. Elimelech*, Comparison of organic fouling resistance of thin-film composite membranes modified by hydrophilic silica nanoparticles and zwitterionic polymer brushes,Journal of Membrane Science, 54 (2017) 135-142.

5. D. Song, W. Zhang, W. Cheng, B. Jia, P. Wang, Z. Sun, J. Ma*, X. Zhai, J. Qi,C. Liu*, Micro fine particles deposition on gravity-driven ultrafiltration membrane to modify the surface properties and biofilm compositions: water quality improvement and biofouling mitigation,Chemical Engineering Journal, 2019, 123270.

6. A.F. Faria,C. Liu, M. Xie, F. Perreault, L.D. Nghiem, J. Ma, M. Elimelech*, Thin-film composite forward osmosis membranes functionalized with graphene oxide–silver nanocomposites for biofouling control,Journal of Membrane Science, 525 (2017) 146-156.

7. Q. Liu,C. Liu, L. Zhao, W. Ma, H. Liu, J. Ma*, Integrated forward osmosis-membrane distillation process for human urine treatment,Water Research, 91 (2016) 45-54.

8. W. Cheng,C. Liu, T. Tong, R. Epsztein, M. Sun, R. Verduzco, J. Ma*, M. Elimelech*, Selective removal of divalent cations by polyelectrolyte multilayer nanofiltration membrane: Role of polyelectrolyte charge, ion size, and ionic strength,Journal of Membrane Science, 559 (2018) 98-106.

9. W. Zhang,C. Liu, T. Zheng, J. Ma*, G. Zhang, G. Ren, L. Wang, Y. Liu. Efficient oxidation and sorption of arsenite using a novel titanium(IV)-manganese(IV) binary oxide sorbent,Journal of Hazardous Materials, 353 (2018) 410-420.

10. W. Zhang,C. Liu, L. Wang, T. Zheng, G. Ren, J. Li, J. Ma*, G. Zhang, H. Song, Z. Zhang, Z. Li, A novel nanostructured Fe-Ti-Mn composite oxide for highly efficient arsenic removal: Preparation and performance evaluation,Colloids and Surfaces A: Physicochemical andEngineering Aspects, 561 (2019) 364-372.

11. Z. Sun, L. Zhao,C. Liu, Y. Zhen, J. Ma*, Fast adsorption of BPA with high capacity based on π-π electron donor-acceptor and hydrophobicity mechanism using an in-situ sp2 C dominant N-doped carbon,Chemical Engineering Journal, 381 (2020) 122510.

12. Z. Sun, L. Zhao,C. Liu, Y. Zhen, W. Zhang, J. Ma*, A novel 3D adsorbent of reduced graphene oxide-β-cyclodextrin aerogel coupled hardness with softness for efficient removal of bisphenol A,Chemical Engineering Journal, 372 (2019) 896-904.

13. D. Song, W. Zhang,C. Liu, P. Wang, Z. Sun, L. Zhao, X. Zhai, J. Qi, J. Ma*, Development of a novel anoxic/oxic fed-batch membrane bioreactor (AFMBR) based on gravity-driven and partial aeration modes: A pilot scale study,Bioresource Technology, 270 (2018) 255-262.

14. X. Lu, X. Feng, Y. Yang, J. Jiang, W. Cheng,C. Liu, M. Gopinadhan, C.O. Osuji, J. Ma*, M. Elimelech*, Tuning the permselectivity of polymeric desalination membranes via control of polymer crystallite size,Nature Communications, 10 (2019) 2347.

15.刘彩虹,刘百仓,林佳琪,张梦然,谢彦波,王维璋,白玉华,马军.处理含氨氮地表水的混凝-超滤工艺中膜清洗方法的研究[J].给水排水, 2013, 9: 121-126.

16.刘乾亮,刘彩虹,马军,刘惠玲.正渗透膜处理分离尿液效能与工艺运行特性[J].中国给水排水, 2016, 9: 16-19.

17.宋丹,刘彩虹,程巍,齐晶瑶,马军.重力驱动微滤膜给水处理工艺特性与除污效能[J], 2020, 3: 22-26

18.林佳琪,刘百仓,郭劲松,黄尔,杨国洪,张梦然,刘彩虹.不同氨氮浓度对混凝_超滤组合工艺水质处理效果及膜通量的影响[J].环境工程学报, 2013, 1.

专利:

1.一种高盐高有机物废水资源化与零排放的处理系统[p].201910735886.7. 排名1

2.一种高盐高有机物废水的矿物回收与零排放工艺[p]. 1201910735879.7排名1

3.一种功能性生态浮床水质净化装置[p]. 201811275097.1, 排名1

4.一种后处理制备抗污染正渗透聚酰胺复合膜的方法[P]. 2017101345135.排名2

5.改性聚酰胺复合薄膜的方法[P]. 2017101357166.排名2

6.一种聚合氯化铝强化型好痒颗粒污染膜生物反应器的一体化污水处理装置[p]. 201811255480.0, 排名2

7.一种一体化强化好氧颗粒污染膜生物反应器系统[p]. 201811275081.0, 排名2

8.一种多运行方式的超滤膜反应器装置及使用方法[P]. 201710363565X.排名3

9.一种重力驱动式的超滤生物膜反应器处理低温低氨氮废水的方法[P].201710363195X.排名3

6.参与的国际与国内会议情况

1. A facile strategy to enhance ultrafiltration membrane performance in gravity-driven system via deposition of micro fine particle, The 4th International Conference on Desalination using Membrane Technology. Perth, Australia, Dec 1-6, 2019. (Oral presentation)

2. The Hidden Infrastructure Nanotechnology Conference, Northeastern University, Boston, MA, USA, Dec 8, 2016. (Oral presentation)

3. Gordon Research Conference and Seminar: “Membranes: Materials and Processes”, Colby-Sawyer College, New London, NH, USA. Jul. 31–Aug. 5, 2016. (Poster presentation)

4. 25th Annual Meeting of the North-American-Membrane-Society, Boston, MA USA, May 30-June 3, 2015. (Poster presentation)

5. International Congress on Membranes and Membrane Processes (ICOM), Suzhou, China. July 20 – July 25, 2014. (Poster presentation)