团队负责人

曹 兵

教授/博导
办公室:综合楼409室
电话:010-64413857
Email:bcao@mail.buct.edu.cn
北京市朝阳区北三环东路15号邮编:100029
研究室网站http://www.cmse1.buct.edu.cn/membranes/

研究领域:
1、新型水处理膜材料的研究
针对超滤、纳滤及渗透汽化膜应用,主要以聚酰亚胺、PVDF、聚乙烯醇及石墨烯为基础材料,设计并开发平板、管式及中空纤维膜材料的制备方法并研究其结构-性能的关系。
2、新型膜组器与系统的研究开发
针对平板、管式及中空纤维膜的应用,研究开发新型膜组器及系统的设计与制备方法。
3、膜应用技术研究
利用开发的新型膜材料,研究开发垃圾渗滤液、化工、煤炭等行业高污染废水的处理技术;海水、反渗透浓水等高盐废水的脱盐技术;化学、制药等领域的物质分离技术。

1983年-1987年,北京化工学院,化学工程,获学士学位
1992年-1999年,东京工业大学,化学工程,获硕士、博士学位

1987年-1992年,北京化工学院,计算机及应用系,助教
1999年-2001年,东京工业大学,化学工程系,教师
2000年-2002年,路易斯安娜州立大学,化学工程系,博士后
2002年-2006年,中国蓝星集团中蓝膜技术有限公司,技术中心主任
2006年-至今,北京化工大学材料科学与工程学院,教授

科研情况概述:

2007年入选教育部新世纪优秀人才计划;作为项目负责人主持国家科技支撑计划、国家自然科学基金、教育部重大研究项目以及企业课题多项。在国内外学术期刊发表论文120余篇,其中被SCI收录80篇,授权专利5项。

 

代表性文章:

(1) Caili Zhang,’Bing Cao,’Pei Li ,Thermal oxidative crosslinking of phenolphthalein-based cardo polyimides with enhanced gas permeability and selectivity. Journal of Membrane Science,2018,546:90-99

(2) Yuan Li,’ Bing Cao,’Pei Li, Fabrication of PMDA-ODA hollow fibers with regular cross-section morphologies and study on the formation mechanism.Journal of Membrane Science,2017,544:1-11

(3) CailiZhang,’PeiLi,’Bing Cao, Effects of the side groups of the spirobichroman-based diamines on the chain packing and gas separation properties of the polyimides.Journal of Membrane Science,2017,530:176-184

(4) Caili Zhang,’ Pei Li,’Bing CaoDecarboxylation crosslinking of polyimides with high CO2/CH4 separation performance and plasticization resistance.Journal of Membrane Science,2017,528:206-216

(5) Rui Zhang,’ Bin Liang,’ Ting Qu,’Bing Cao,’ Pei Li, High-performance

sulfosuccinic acid crosslinked PVA composite pervaporation membrane for

desalination. Environmental Technology, 2017(3):1-9.

(6)   Zhang, C.; Li, P.; Cao, B., ElectrospunMicrofibrous Membranes Based on PIM-1/POSS with High Oil Wettability for Separation of Oil-Water Mixtures and Cleanup of Oil Soluble Contaminants. Ind. Eng. Chem. Res.2015, 54, 8772-8781.

(7)   Xu, T.; Meng, Q.; Shen, T.; Cao, B., Facile synthesis of submillimeter sized graphene oxide by a novel method. RSC Adv.2015, 5, 73737-73741.

(8)   Wang, J.; Jia, P.; Pan, K.; Cao, B., Functionalization of polyacrylonitrile nanofiber mat via surface-initiated atom transfer radical polymerization for copper ions removal from aqueous solution. Desalin. Water Treat.2015, 54, 2856-2867.

(9)   Tian, G.; Liu, L.; Meng, Q.; Cao, B., Facile synthesis of laminated graphene for advanced supercapacitor electrode material via simultaneous reduction and N-doping. J. Power Sources.2015, 274, 851-861.

(10)   Pan, K.; Li, H.; Liang, B.; Qi, G.; Cao, B., Synthesis of well-defined responsive membranes with fixable solvent responsiveness. Polym. Int.2015, 64, 138-145.

(11)   Liu, Y.; Cao, B.; Jia, P.; An, J.; Luo, C.; Ma, L.; Chang, J.; Pan, K., Layer-by-Layer Surface Molecular Imprinting on Polyacrylonitrile Nanofiber Mats. J. Phys. Chem. A.2015, 119, 6661-6667.

(12)   Liang, B.; Zhan, W.; Qi, G.; Lin, S.; Nan, Q.; Liu, Y.; Cao, B.; Pan, K., High performance graphene oxide/polyacrylonitrile composite pervaporation membranes for desalination applications. J. Mater. Chem. A.2015, 3, 5140-5147.

(13)   Khalid, B.; Meng, Q. H.; Cao, B., A non-enzymatic thermally reduced Cu nanoparticle based graphene-resorcinol benzaldehyde glucose sensor. Mater. Res. Innovations.2015, 19, 91-96.

(14)   Wang, J.; Luo, C.; Qi, G.; Pan, K.; Cao, B., Mechanism study of selective heavy metal ion removal with polypyrrole-functionalized polyacrylonitrile nanofiber mats. Appl. Surf. Sci.2014, 316, 245-250.

(15) Qu, T.; Pan, K.; Li, L.; Liang, B.; Wang, L.; Cao, B., Influence of Ultrasonication Conditions on the Structure and Performance of Poly(vinylidene fluoride) Membranes Prepared by the Phase Inversion Method. Ind. Eng. Chem. Res.2014, 53, 8228-8234.

 

学术兼职:

全国分离膜标准化技术委员会委员