姜忠義教授為國家杰出青年科學基金獲得者，跨世紀優(yōu)秀人才培養(yǎng)計劃入選者，新世紀百千萬人才工程國家級人選，國家精品課程、國家雙語教學示范課程、國家級精品資源共享課程負責人，享受政府特殊津貼。先后主持863重大項目、國家自然科學基金重大項目以及國家杰出青年科學基金等50余項。發(fā)表SCI論文320多篇，其中在膜領域的權威期刊Journal of Membrane Science發(fā)表論文90多篇（近10年內國際排名第三位），在影響因子>4.0及化工三大主流期刊發(fā)表論文200多篇，H因子42。被Nature等SCI引用5000多次。獲授權發(fā)明專利27項。作為第一完成人獲天津市自然科學一等獎等省部級科技獎4項。

姜忠義

現(xiàn)任職稱/職務：教授、博士生導師
通訊地址：天津市南開區(qū)衛(wèi)津路92號天津大學北洋科學樓705
電子郵箱：zhyjiang@tju.edu.cn
辦公電話：022-27406646

研究方向:

仿生與生物啟發(fā)下的膜和膜過程、酶催化、光催化

學術兼職:

天津化學化工協(xié)同創(chuàng)新中心“膜和膜過程”研究團隊負責人，化學工藝國家重點學科負責人，化工綠色過程省部共建國家重點實驗室培育基地主任，天津大學膜科學與技術研究中心主任。5種國內外期刊編委。

學術成就:

 

國家杰出青年基金獲得者，新世紀百千萬人才工程國家級人選，享受政府特殊津貼人員，教育部跨世紀優(yōu)秀人才培養(yǎng)計劃入選者，天津市創(chuàng)新人才推進計劃重點領域創(chuàng)新團隊“水處理過程高效強化創(chuàng)新團隊”負責人，天津市高層次創(chuàng)新創(chuàng)業(yè)團隊“水處理高性能材料與過程強化團隊”負責人。

國家精品課程、國家雙語教學示范課程、國家精品資源共享課負責人，主要講授《化工分離工程》、《新型分離技術基礎》等課程。

發(fā)表SCI收錄論文290余篇，其中在Chemical Society Reviews期刊發(fā)表論文2篇，在Progress in Polymer Science和Energy & Environmental Science期刊各發(fā)表論文1篇，在Advanced Functional Materials發(fā)表論文5篇，在Journal of Membrane Science發(fā)表論文82篇，在影響因子大于3.0及化工三大主流期刊發(fā)表論文230余篇，H因子40。被Nature等SCI他引4000余次，單篇最高SCI他引205次。出版中文專著2部，撰寫英文專著2章。獲授權發(fā)明專利29項。主持國家自然科學基金、863計劃重大項目課題、863項目、973子課題等項目30余項。作為第一完成人獲省部級科技獎一等獎1項、二等獎3項，作為主要完成人獲國家級優(yōu)秀教學成果二等獎1項。主持國際會議6次，在美國化學會年會、美國化學工程師協(xié)會年會等國際會議和美國加州理工學院、美國UOP公司等做邀請報告20余次。

科研項目:

[1] 分子選擇型混合基質膜限域結構形成機制與調變，國家自然科學基金重大項目課題，2015-2019，負責人

[2] 仿生與生物啟發(fā)下的膜和膜過程，國家杰出青年科學基金，2012-2015，負責人

[3] CO₂分離膜材料及規(guī)�；�制備技術，863計劃重點項目， 2012-2014，負責人

[4] 新一代生物催化和生物轉化的科學基礎（納微結構多酶催化體系的仿生構建），973項目子課題，2009-2013，負責人

[5] 仿生礦化與自組裝法多酶系統(tǒng)的理性構建與過程強化，國家自然科學基金項目，2010-2012，負責人

論著專利:

主要期刊論文

（1）代表性期刊論文

[1]        Yifan Li, Shaofei Wang, Guangwei He, Hong Wu, Fusheng Pan,Zhongyi Jiang*.  Facilitated transport of small molecules and ions for energy-efficient membranes. Chemical Society Reviews, 44, 103-118, 2015.

[2]        Jiafu Shi, Yanjun Jiang, Xiaoli Wang, Hong Wu, Dong Yang, Fusheng Pan, Yanlei Su, Zhongyi Jiang*. Design and synthesis of organic-inorganic hybrid capsules for biotechnological applications.Chemical Society Reviews, 43(15), 5192-5210, 2014.

[3]        Jing Zhao, Xueting Zhao, Zhongyi Jiang*, Zhen Li, Xiaochen Fan, Junao Zhu, Hong Wu, Yanlei Su, Dong Yang, Fusheng Pan, Jiafu Shi, Biomimetic and bioinspired membranes: preparation and application,Progress in Polymer Science, 39, 1668-1720, 2014.

[4]        Yifan Li, Qingping Xin, Hong Wu, Ruili Guo, Zhizhang Tian, Ye Liu, Shaofei Wang, Guangwei He, Fusheng Pan, Zhongyi Jiang*,Efficient CO₂ capture by humidified polymer electrolyte membranes with tunable water state, Energy & Environmental Science, 7(4), 1489-1499, 2014.  

[5]        Jiafu Shi, Xiaoli Wang, Wenyan Zhang, Zhongyi Jiang*, Yanpeng Liang, Yuanyuan Zhu, Chunhong Zhang. Synergy of Pickering emulsion and sol-gel process for the construction of an efficient, recyclable enzyme cascade system. Advanced Functional Materials, 23(11), 1450-1458, 2013.

[6]        Jingtao Wang, Xiujun Yue, Zizhuo Zhang, Zheng Yang, Yifan Li, Han Zhang, Xinlin Yang, Hong Wu, Zhongyi Jiang*, Enhancement of proton conduction at low humidity by incorporating imidazole microcapsules into polymer electrolyte membranes, Advanced Functional Materials, 22(21), 4539-4546, 2012.

[7]        Jingtao Wang, Han Zhang, Xinlin Yang, Shuang Jiang, Wenjun Lv,Zhongyi Jiang*, Shizhang Qiao, Enhanced water retention by using polymeric microcapsules to confer high proton conductivity on membranes at low humidity, Advanced Functional Materials, 21(5), 971-978, 2011.

[8]        Wenjuan Chen, Yanlei Su, Jinming Peng, Yanan Dong, Xueting Zhao, Zhongyi Jiang*, Engineering a robust, versatile amphiphilic membrane surface through forced surface segregation for ultralow flux-decline, Advanced Functional Materials, 21(1), 191-198, 2011.

[9]   Yanjun Jiang, Dong Yang, Lei Zhang, Qianyun Sun, Xiaohui Sun, Jian Li, Zhongyi Jiang*, Preparation of protamine–titania microcapsules through synergy between layer-by-layer assembly and biomimetic mineralization, Advanced Functional Materials, 19(1), 150-156, 2009.

[10]            Yufei Zhang, Hong Wu*, Jian Li, Lin Li, Yanjun Jiang, Yan Jiang, Zhongyi Jiang*, Protamine-templated biomimetic hybrid capsules: efficient and stable carrier for enzyme encapsulation,Chemistry of Materials, 20(3), 1041-1048, 2008.

（2）其他主要期刊論文

[1]   Chen Yang, Hong Wu, Xiao Yang, Jiafu Shi*, Xiaoli Wang, Shaohua Zhang, Zhongyi Jiang*, Coordination-enabled one-step assembly of ultrathin, hybrid microcapsules with weak ph-response, ACS Applied Materials & Interfaces, DOI: 10.1021/acsami.5b01463, 2015.

[2]   Shaofei Wang, Zhizhang Tian, Jiangyan Feng, Hong Wu, Yifan Li, Ye Liu, Xueqin Li, Qingping Xin, Zhongyi Jiang*. Enhanced CO₂separation properties by incorporating poly(ethylene glycol)-containing polymeric submicrospheres into polyimide membrane. Journal of Membrane Science, 473, 310-317, 2015.

[3]        Xueting Zhao, Yanlei Su, Jialin Cao, Yafei Li, Runnan Zhang, Yanan Liu, Zhongyi Jiang*. Fabrication of antifouling polymer-inorganic hybrid membranes through synergy of biomimetic mineralization and nonsolvent induced phase separation. Journal of Materials Chemistry A, DOI: 10.1039/C5TA00654F, 2015.

[4]        Xueting Zhao, Yanlei Su, Heng Dai, Yafei Li, Runnan Zhang,Zhongyi Jiang*. Coordination-enabled synergistic surface segregation for fabrication of multi-defense mechanism membranes. Journal of Materials Chemistry A, 3, 3325-3331, 2015.

[5]        Yafei Li, Yanlei Su, Jianyu Li, Xueting Zhao, Runnan Zhang, Xiaochen Fan, Junao Zhu, Yanyan Ma, Yuan Liu, Zhongyi Jiang*.Preparation of thin film composite nanofiltration membrane with improved structural stability through the mediation of polydopamine.Journal of Membrane Science, 476, 10-19, 2015.

[6]        Hong Wu, Chunyong Tian, Yufei Zhang, Chen Yang, Songping Zhang*, Zhongyi Jiang*. Stereoselective assembly of amino acid-based metal-biomolecule nanofibers. Chemical Communications, DOI: 10.1039/C5CC00446B, 2015.

[7]        Jiafu Shi, Wenyan Zhang, Shaohua Zhang, Xiaoli Wang, Zhongyi Jiang*. Synthesis of organic-inorganic hybrid microcapsules through in situ generation of an inorganic layer on an adhesive layer with mineralization-inducing capability. Journal of Materials Chemistry B, 3, 465-474, 2015.

[8]        Dong Yang, Yuanyuan Sun, Zhenwei Tong, Yao Tian, Yuanbing Li,Zhongyi Jiang*. Synthesis of Ag/TiO2 Nanotube Heterojunction with Improved Visible-light Photocatalytic Performance Inspired by Bioadhesion. The Journal of Physical Chemistry C, DOI: 10.1021/jp511948p, 2015.

[9]        Jiafu Shi, Shaohua Zhang, Xiaoli Wang, Zhongyi Jiang*. Open-mouthed hybrid microcapsules with elevated enzyme loading and enhanced catalytic activity. Chemical Communications, 50, 12500-12503, 2014.

[10]   Jiafu Shi, Zhongyi Jiang*. An efficient and recyclable enzyme catalytic system constructed through the synergy between biomimetic mineralization and polyamine-salt aggregate assembly. Journal of Materials Chemistry B, 2(28), 4435-4441, 2014.

[11]   Jiafu Shi, Shaohua Zhang, Xiaoli Wang, Chen Yang, Zhongyi Jiang*. Preparation and enzymatic application of flower-like hybrid microcapsules through a biomimetic mineralization approach. Journal of Materials Chemistry B, 2(27), 4289-4296, 2014.

[12]   Xiaoli Wang, Jiafu Shi, Zheng Li, Shaohua Zhang, Hong Wu,Zhongyi Jiang*, Chen Yang, Chunyong Tian. Facile One-Pot Preparation of Chitosan/Calcium Pyrophosphate Hybrid Microflowers.ACS Applied Materials & Interfaces, 6(16), 14522-14532, 2014.

[13]   Xiaoli Wang, Zheng Li, Jiafu Shi, Hong Wu, Zhongyi Jiang*, Wenyan Zhang, Xiaokai Song, Qinghong Ai. Bioinspired Approach to Multienzyme Cascade System Construction for Efficient Carbon Dioxide Reduction. ACS Catalysis, 4(3), 962-972, 2014.

[14]   Wenyan Zhang, Jiafu Shi, Xiaoli Wang, Zhongyi Jiang*, Xiaokai Song, Qinghong Ai. Conferring an adhesion layer with mineralization-inducing capabilities for preparing organic-inorganic hybrid microcapsules. Journal of Materials Chemistry B, 2(10), 1371-1378, 2014.

[15]   Chunyong Tian, Chunhong Zhang, Hong Wu*, Yixuan Song, Jiafu Shi, Xiaoli Wang, Xiaokai Song, Chen Yang, Zhongyi Jiang. Merging of covalent cross-linking and biomimetic mineralization into an LBL self-assembly process for the construction of robust organic-inorganic hybrid microcapsules. Journal of Materials Chemistry B, 2(27), 4346-4355, 2014.

[16]   Yuning Zhao, Hao Yang, Hong Wu, Zhongyi Jiang*. Enhanced proton conductivity of the hybrid membranes by regulating the proton conducting groups anchored on the mesoporous silica. Journal of Power Sources, 270, 292-303, 2014.

[17]   Hong Wu, Ying Cao, Zhen Li, Guangwei He, Zhongyi Jiang*. Novel sulfonated poly (ether ether ketone)/phosphonic acid-functionalized titania nanohybrid membrane by an in situ method for direct methanol fuel cells. Journal of Power Sources, 273, 544-553, 2014.

[18]   Guangwei He, Jing Zhao, Shen Hu, Lingqiao Li, Zongyu Li, Yifan Li, Zhen Li, Hong Wu, Xinlin Yang, Zhongyi Jiang*. Functionalized Carbon Nanotube via Distillation Precipitation Polymerization and Its Application in Nafion-Based Composite Membranes. ACS Applied Materials and Interfaces, 6(17), 15291-15301, 2014.

[19]   Yongheng Yin, Tao Xu, Xiaohui Shen, Hong Wu, Zhongyi Jiang*.Fabrication of chitosan/zwitterion functionalized titania–silica hybrid membranes with improved proton conductivity. Journal of Membrane Science, 469, 355-363, 2014.

[20]   Zhen Li, Guangwei He, Yuning Zhao, Ying Cao, Hong Wu, Yifan Li,Zhongyi Jiang*. Enhanced proton conductivity of proton exchange membranes by incorporating sulfonated metal-organic frameworks.Journal of Membrane Science, 467, 23-35, 2014.

[21]   Hong Wu, Xueqin Li, Yifan Li, Shaofei Wang, Ruili Guo, Zhongyi Jiang*, Chan Wu, Qingping Xin, Xia Lu. Facilitated transport mixed matrix membranes incorporated with amine functionalized MCM-41 for enhanced gas separation properties. Journal of Membrane Science, 465, 78-90, 2014.

[22]   Ye Liu, Dongdong Peng, Guangwei He, Shaofei Wang, Yifan Li, Hong Wu, Zhongyi Jiang*. Enhanced CO2 Permeability of Membranes by Incorporating Polyzwitterion@CNT Composite Particles into Polyimide Matrix. ACS Applied Materials & Interfaces, 6(15), 13051-13060, 2014.

[23]   Hong Wu, Ying Cao, Xiaohui Shen, Zhen Li, Tao Xu, Zhongyi Jiang*. Preparation and performance of different amino acids functionalized titania-embedded sulfonated poly (ether ether ketone) hybrid membranes for direct methanol fuel cells. Journal of Membrane Science, 463, 134-144, 2014.

[24]   Guangwei He, Lingli Nie, Xi Han, Hao Dong, Yifan Li, Hong Wu, Xueyi He, Jinbo Hu, Zhongyi Jiang*. Constructing facile proton-conduction pathway within sulfonated poly(ether ether ketone) membrane by incorporating poly(phosphonic acid)/silica nanotubes.Journal of Power Sources, 259, 203-212, 2014.

[25]   Zhen Li, Guangwei He, Bei Zhang, Ying Cao, Hong Wu, Zhongyi Jiang*, Zhou Tiantian. Enhanced Proton Conductivity of Nafion Hybrid Membrane under Different Humidities by Incorporating Metal-Organic Frameworks With High Phytic Acid Loading. ACS Applied Materials & Interfaces, 6(12), 9799-9807, 2014.

[26]   Yifan Li, Shaofei Wang, Hong Wu, Ruili Guo, Ye Liu, Zhongyi Jiang*, Zhizhang Tian, Peng Zhang, Xingzhong Cao, Baoyi Wang. High-Performance Composite Membrane with Enriched CO2-philic Groups and Improved Adhesion at the Interface. ACS Applied Materials & Interfaces, 6(9), 6654-6663, 2014.

[27]   Guangwei He, Zongyu Li, Yifan Li, Zhen Li, Hong Wu, Xinlin Yang,Zhongyi Jiang*. Zwitterionic Microcapsules as Water Reservoirs and Proton Carriers within a Nafion Membrane To Confer High Proton Conductivity under Low Humidity. ACS Applied Materials & Interfaces, 6(8), 5362-5366, 2014.

[28]   Hong Wu, Xiaohui Shen, Ying Cao, Zhen Li, Zhongyi Jiang*. Composite proton conductive membranes composed of sulfonated poly(ether ether ketone) and phosphotungstic acid-loaded imidazole microcapsules as acid reservoirs. Journal of Membrane Science, 451, 74-84, 2014.

[29]   Runnan Zhang, Yanlei Su, Xueting Zhao, Yafei Li, Jiaojiao Zhao,Zhongyi Jiang*. A novel positively charged composite nanofiltration membrane prepared by bio-inspired adhesion of polydopamine and surface grafting of poly (ethylene imine). Journal of Membrane Science, 470, 9-17, 2014.

[30]   Xiaochen Fan, Yanlei Su, Xueting Zhao, Yafei Li, Runnan Zhang, Jiaojiao Zhao, Zhongyi Jiang*, Junao Zhu, Yanyan Ma, Yuan Liu. Fabrication of polyvinyl chloride ultrafiltration membranes with stable antifouling property by exploring the pore formation and surface modification capabilities of polyvinyl formal. Journal of Membrane Science, 464, 100-109, 2014.

[31]   Xueting Zhao, Yanlei Su, Yafei Li, Runnan Zhang, Jiaojiao Zhao,Zhongyi Jiang*. Engineering amphiphilic membrane surfaces based on PEO and PDMS segments for improved antifouling performances.Journal of Membrane Science, 450, 111-123, 2014.

[32]   Yafei Li, Yanlei Su, Xueting Zhao, Xin He, Runnan Zhang, Jiaojiao Zhao, Xiaochen Fan, Zhongyi Jiang*. Antifouling, High-Flux Nanofiltration Membranes Enabled by Dual Functional Polydopamine.ACS Applied Materials & Interfaces, 6(8), 5548-5557, 2014.

[33]   Yafei Li, Yanlei Su, Xueting Zhao, Runnan Zhang, Jiaojiao Zhao, Xiaochen Fan, Zhongyi Jiang*. Surface fluorination of polyamide nanofiltration membrane for enhanced antifouling property. Journal of Membrane Science, 455, 15-23, 2014.

[34]   Xiaochen Fan, Yanan Dong, Yanlei Su, Xueting Zhao, Yafei Li, Jiazhen Liu, Zhongyi Jiang*. Improved performance of composite nanofiltration membranes by adding calcium chloride in aqueous phase during interfacial polymerization process. Journal of Membrane Science, 452, 90-96, 2014.

[35]   Xueting Zhao, Yanlei Su, Yafei Li, Runnan Zhang, Jiaojiao Zhao,Zhongyi Jiang*. Engineering amphiphilic membrane surfaces based on PEO and PDMS segments for improved antifouling performances.Journal of Membrane Science, 450, 111-123, 2014.

[36]   Guanhua Liu, Tiantian Zhou, Wanpeng Liu, Shen Hu, Fusheng Pan, Wu Hong, Zhongyi Jiang*, Baoyi Wang, Jing Yang, Xingzhong Cao, Enhanced desulfurization performance of PDMS membranes by incorporating silver decorated dopamine nanoparticles, Journal of Materials Chemistry A, 2(32), 12907-12917, 2014.

[37]   Shaofei Wang, Ye Liu, Shixin Huang, Hong Wu, Yifan Li, Zhizhang Tian, Zhongyi Jiang*, Pebax–PEG–MWCNT hybrid membranes with enhanced CO₂ capture properties, Journal of Membrane Science,460, 62-70, 2014.

[38]   Wanpeng Liu, Shen Hu, Guanhua Liu, Fusheng Pan, Hong Wu,Zhongyi Jiang*, Baoyi Wang, Zhuoxin Li, Xingzhong Cao, Creation of hierarchical structures within membranes by incorporating mesoporous microcapsules for enhanced separation performance and stability, Journal of Materials Chemistry A, 2(15), 5267-5279, 2014.

[39]   Jiafu Shi, Xiaoman Zhang, Shaohua Zhang, Xiaoli Wang, Zhongyi Jiang*. Incorporating Mobile Nanospheres in the Lumen of Hybrid Microcapsules for Enhanced Enzymatic Activity. ACS Applied Materials & Interfaces, 5(21), 10433-10436, 2013.

[40]   Xiaoli Wang, Jiafu Shi, Zhongyi Jiang*, Zheng Li, Wenyan Zhang, Xiaokai Song, Qinghong Ai, Hong Wu. Preparation of Ultrathin, Robust Protein Microcapsules through Template-Mediated Interfacial Reaction between Amine and Catechol Groups. Biomacromolecules, 14(11), 3861-3869, 2013.

[41]   Jiafu Shi, Chen Yang, Shaohua Zhang, Xiaoli Wang, Zhongyi Jiang*, Wenyan Zhang, Xiaokai Song, Qinghong Ai, Chunyong Tian. Polydopamine Microcapsules with Different Wall Structures Prepared by a Template-Mediated Method for Enzyme Immobilization. ACS Applied Materials & Interfaces, 5(20), 9991-9997, 2013.

[42]   Jiafu Shi, Wenyan Zhang, Xiaoli Wang, Zhongyi Jiang*, Shaohua Zhang, Xiaoman Zhang, Chunhong Zhang, Xiaokai Song, Qinghong Ai. Exploring the Segregating and Mineralization-Inducing Capacities of Cationic Hydrophilic Polymers for Preparation of Robust, Multifunctional Mesoporous Hybrid Microcapsules. ACS Applied Materials & Interfaces, 5(11), 5174-5185, 2013.

[43]   Hong Wu, Chunyong Tian, Xiaokai Song, Chuang liu, Dong Yang,Zhongyi Jiang*. Methods for nicotinamide coenzymes regeneration.Green Chemistry, 15(7), 1773-1789, 2013.

[44]   Chuang Liu, Dong Yang, Yang Jiao, Yao Tian, Yuangui Wang,Zhongyi Jiang*. Biomimetic Synthesis of TiO₂-SiO₂-Ag Nanocomposites with Enhanced Visible-Light Photocatalytic Activity.ACS Applied Materials & Interfaces, 5(9), 3824-3832, 2013.

[45]   Xueting Zhao, Wenjuan Chen, Yanlei Su, Wen Zhu, Jinming Peng,Zhongyi Jiang*, Lu Kong, Yafei Li, Jiazhen Liu. Hierarchically engineered membrane surfaces with superior antifouling and self-cleaning properties. Journal of Membrane Science, 441, 93-101, 2013.

[46]   Jinming Peng, Yanlei Su, Wenjuan Chen, Xueting Zhao, Zhongyi Jiang*, Yanan Dong, Yan Zhang, Jiazhen Liu, Xingzhong Cao. Polyamide nanofiltration membrane with high separation performance prepared by EDC/NHS mediated interfacial polymerization. Journal of Membrane Science, 427, 92-100, 2013.

[47]   Jing Zhao, Fusheng Pan, Pan Li, Cuihong Zhao, Zhongyi Jiang*, Peng Zhang, Xingzhong Cao, Fabrication of ultrathin membrane via layer-by-layer self-assembly driven by hydrophobic interaction towards high separation performance, ACS Applied Materials & Interfaces, 5(24), 13275-13283, 2013.

[48]   Jing Zhao, Fei Wang, Fusheng Pan, Mingxuan Zhang, Xiaoyue Yang, Pan Li, Zhongyi Jiang*, Peng Zhang, Xingzhong Cao, Baoyi Wang, Enhanced pervaporation dehydration performance of ultrathin hybrid membrane by incorporating bioinspired multifunctional modifier and TiCl₄ into chitosan, Journal of Membrane Science, 446, 395-404, 2013.

[49]   Yifan Li, Guangwei He, Shaofei Wang, Shengnan Yu, Fusheng Pan, Hong Wu, Zhongyi Jiang*, Recent advances in the fabrication of advanced composite membranes, Journal of Materials Chemistry A, 1(35), 10058-10077, 2013.

[50]   Wanpeng Liu, Yifan Li, Xiangxi Meng, Guanhua Liu, Shen Hu, Fusheng Pan, Hong Wu, Zhongyi Jiang*, Baoyi Wang, Zhuoxin Li, Xingzhong Cao, Embedding dopamine nanoaggregates into a poly(dimethylsiloxane) membrane to confer controlled interactions and free volume for enhanced separation performance, Journal of Materials Chemistry A, 1(11), 3713-3723, 2013.

[51]   Jingtao Wang, Zizhuo Zhang, Xiujun Yue, Lingli Nie, Guangwei He, Hong Wu, Zhongyi Jiang*, Independent control of water retention and acid–base pairing through double-shelled microcapsules to confer membranes with enhanced proton conduction under low humidity,Journal of Materials Chemistry A, 1(6), 2267-2277, 2013.

[52]   Cuihong Zhao, Hong Wu, Xianshi Li, Fusheng Pan, Yifan Li, Jing Zhao, Zhongyi Jiang*, Peng Zhang, Xingzhong Cao, Baoyi Wang, High performance composite membranes with a polycarbophil calcium transition layer for pervaporation dehydration of ethanol, Journal of Membrane Science, 429, 409-417, 2013.

[53]   Lingli Nie, Jingtao Wang, Tao Xu, Hao Dong, Hong Wu, Zhongyi Jiang*. Enhancing proton conduction under low humidity by incorporating core-shell polymeric phosphonic acid submicrospheres into sulfonated poly(ether ether ketone) membrane. Journal of Power Sources, 213, 1-9, 2012.

[54]   Yifan Li, Huiping Jia, Fusheng Pan, Zhongyi Jiang*, Qinglai Cheng. Enhanced anti-swelling property and dehumidification performance by sodium alginate-poly(vinyl alcohol)/polysulfone composite hollow fiber membranes. Journal of Membrane Science, 407, 211-220, 2012.

[55]   Xueting Zhao, Yanlei Su, Wenjuan Chen, Jinming Peng, Zhongyi Jiang*. Grafting perfluoroalkyl groups onto polyacrylonitrile membrane surface for improved fouling release property. Journal of Membrane Science, 415, 824-834, 2012.

[56]   Yifan Li, Shaofei Wang, Hong Wu, Jingtao Wang, Zhongyi Jiang*,Bioadhesion-inspired polymer–inorganic nanohybrid membranes with enhanced CO₂ capture properties, Journal of Materials Chemistry, 22 (37), 19617-19620, 2012.

[57]   Ben Li, Wanpeng Liu, Hong Wu, Shengnan Yu, Ruijian Cao,Zhongyi Jiang*, Desulfurization of model gasoline by bioinspired oleophilic nanocomposite membranes, Journal of Membrane Science, 415-416, 278-287, 2012.

[58]   Jianwu Ding, Minhua Zhang, Zhongyi Jiang*, Yifan Li, Jing Ma, Jing Zhao, Enhancing the permselectivity of pervaporation membrane by constructing the active layer through alternative self-assembly and spin-coating, Journal of Membrane Science, 390-391, 218-225, 2012.

[59]   Lei Zhang, Jiafu Shi, Zhongyi Jiang*, Yanjun Jiang, Shizhang Qiao, Jian Li, Rui Wang, Ruijie Meng, Yuanyuan Zhu, Yang Zheng. Bioinspired preparation of polydopamine microcapsule for multienzyme system construction. Green Chemistry, 13(2), 300-306, 2011.

[60]   Lei Zhang, Jiafu Shi, Zhongyi Jiang*, Yanjun Jiang, Ruijie Meng, Yuanyuan Zhu, Yanpeng Liang, Yang Zheng. Facile preparation of robust microcapsules by manipulating metal-coordination interaction between biomineral layer and bioadhesive layer. ACS Applied Materials & Interfaces, 3(2), 597-605, 2011.

[61]   Jiafu Shi, Lei Zhang, Zhongyi Jiang*. Facile construction of multicompartment multienzyme system through layer-by-layer self-assembly and biomimetic mineralization. ACS Applied Materials & Interfaces, 3(3), 881-889, 2011.

[62]   Yifan Li, Huiping Jia, Qinglai Cheng, Fusheng Pan, Zhongyi Jiang*. Sodium alginate-gelatin polyelectrolyte complex membranes with both high water vapor permeance and high permselectivity. Journal of Membrane Science, 375(1-2), 304-312, 2011.

[63]   Qing Shi, Yanlei Su, Wenjuan Chen, Jinming Peng, Laiyin Nie, Lei Zhang, Zhongyi Jiang*. Grafting short-chain amino acids onto membrane surfaces to resist protein fouling. Journal of Membrane Science, 366(1-2), 398-404, 2011.

[64]   Wenjuan Chen, Yanlei Su, Jinming Peng, Xueting Zhao, Zhongyi Jiang*, Yanan Dong, Yan Zhang, Yangui Liang, Jiazhen Liu. Efficient wastewater treatment by membranes through constructing tunable antifouling membrane surfaces. Environmental Science & Technology, 45(15), 6545-6552, 2011.

[65]   Xueting Zhao, Yanlei Su, Wenjuan Chen, Jinming Peng, Zhongyi Jiang*. pH-responsive and fouling-release properties of PES ultrafiltration membranes modified by multi-functional block-like copolymers. Journal of Membrane Science, 382(1-2), 222-230, 2011.

[66]   Yan Zhang, Yanlei Su, Wenjuan Chen, Jinming Peng, Yanan Dong,Zhongyi Jiang*, Huizhou Liu. Appearance of poly(ethylene oxide) segments in the polyamide layer for antifouling nanofiltration membranes. Journal of Membrane Science, 382(1-2), 300-307, 2011.

[67]   Wanpeng Liu, Ben Li, Ruijian Cao, Zhongyi Jiang*, Shengnan Yu, Guanhua Liu, Hong Wu, Enhanced pervaporation performance of poly (dimethyl siloxane) membrane by incorporating titania microspheres with high silver ion loading, Journal of Membrane Science, 378(1-2), 382-392, 2011.

[68]   Jing Ma, Minhua Zhang, Zhongyi Jiang*, Mingcheng Nie, Guanxiao Liu, Facile fabrication of structurally stable hyaluronic acid-based composite membranes inspired by bioadhesion, Journal of Membrane Science, 364(1-2), 290-297, 2010.

[69]   Qinglai Cheng, Fusheng Pan, Bo Chen, Zhongyi Jiang*. Preparation and dehumidification performance of composite membrane with PVA/gelatin-silica hybrid skin layer. Journal of Membrane Science, 363(1-2), 316-325, 2010.

[70]   Jingtao Wang, Shuang Jiang, Han Zhang, Wenjun Lv, Xinlin Yang,Zhongyi Jiang*. Enhancing proton conduction and methanol barrier performance of sulfonated poly(ether ether ketone) membrane by incorporated polymer carboxylic acid spheres. Journal of Membrane Science, 364(1-2), 253-262, 2010.

[71]   Fusheng Pan, Huiping Jia, Qinglai Cheng, Zhongyi Jiang*. Bio-inspired fabrication of composite membranes with ultrathin polymer-silica nanohybrid skin layer. Journal of Membrane Science, 362(1-2), 119-126, 2010.

[72]   Fusheng Pan, Qinglai Cheng, Huiping Jia, Zhongyi Jiang*. Facile approach to polymer-inorganic nanocomposite membrane through a biomineralization-inspired process. Journal of Membrane Science, 357(1-2), 171-177, 2010.

[73]   Hong Wu, Weiqiang Hou, Jingtao Wang, Lulu Xiao, Zhongyi Jiang*. Preparation and properties of hybrid direct methanol fuel cell membranes by embedding organophosphorylated titania submicrospheres into a chitosan polymer matrix. Journal of Power Sources, 195(13), 4104-4113, 2010.

[74]   Jingtao Wang, Yumiao Zhang, Hong Wu, Lulu Xiao, Zhongyi Jiang*. Fabrication and performances of solid superacid embedded chitosan hybrid membranes for direct methanol fuel cell. Journal of Power Sources, 195(9), 2526-2533, 2010.

[75]   Jing Ma, Minhua Zhang, Hong Wu, Xin Yin, Jing Chen, Zhongyi Jiang*. Mussel-inspired fabrication of structurally stable chitosan/polyacrylonitrile composite membrane for pervaporation dehydration. Journal of Membrane Science, 348(1-2), 150-159, 2010.

[76]   Jingtao Wang, Yuning Zhao, Weiqiang Hou, Jiaqing Geng, Lulu Xiao, Hong Wu, Zhongyi Jiang*. Simultaneously enhanced methanol barrier and proton conductive properties of phosphorylated titanate nanotubes embedded nanocomposite membranes. Journal of Power Sources, 195(4), 1015-1023, 2010.

[77]   Chunxia Mu, Yanlei Su, Mingpeng Sun, Wenjuan Chen, Zhongyi Jiang*. Fabrication of microporous membranes by a feasible freeze method. Journal of Membrane Science, 361(1-2), 15-21, 2010.

[78]   Chunxia Mu, Yanlei Su, Mengping Sun, Wenjuan Chen, Zhongyi Jiang*. Remarkable improvement of the performance of poly(vinylidene fluoride) microfiltration membranes by the additive of cellulose acetate. Journal of Membrane Science, 350(1-2), 293-300, 2010.

[79]   Wenjuan Chen, Yanlei Su, Lei Zhang, Qing Shi, Jinming Peng,Zhongyi Jiang*. In situ generated silica nanoparticles as pore-forming agent for enhanced permeability of cellulose acetate membranes.Journal of Membrane Science, 348(1-2), 75-83, 2010.

[80]   Qing Shi, Yanlei Su, Xue Ning, Wenjuan Chen, Jinming Peng,Zhongyi Jiang*. Graft polymerization of methacrylic acid onto polyethersulfone for potential pH-responsive membrane materials.Journal of Membrane Science, 347(1-2), 62-68, 2010.

 

主要專利

授權專利：

[1]   姜忠義，李奕帆，田志章，劉燁. 一種聚氧乙烯聚合物電解質膜的制備方法及其應用，2013.10，中國，ZL201310492349.7

[2]   姜忠義，李奕帆，王少飛. 高分子-無機雜化膜及制備方法和應用，2013.10，中國，ZL201110349857.0

[3]   姜忠義，蘇延磊，彭金明. 聚合物多孔膜的無溶劑制備方法，2013.6，中國，ZL201210133874.5

[4]   姜忠義，蘇延磊，陳文娟. 氟化醋酸纖維素膜及制備方法，2012.10，中國，ZL201010032307.1

[5]   姜忠義，蘇延磊，陳文娟. 一種用于制備抗污染膜的含氟兩親性改性材料及其制備方法，2012.8，中國，ZL201110062402.0

[6]   姜忠義，李犇，吳洪，劉萬鵬，曹銳建. 一種聚二甲基硅氧烷/二氧化硅雜化膜及制備方法，2012.5，中國，ZL201010275927.8

[7]   姜忠義，張敏華，馬靜，聶明成，劉冠曉. 透明質酸/聚丙烯腈復合膜與制備方法及應用，2012.1，中國，ZL201010122045.8

[8]   姜忠義，蘇延磊，張蕾. 三明治結構化酶膜反應器及其制備方法和應用，2011.12，中國，ZL200910070807.1

[9]   姜忠義，陳雪，陸連玉，李潔. 季胺化殼聚糖滲透蒸發(fā)膜和制備方法及其應用，2011.9，中國，ZL200710060371.9

[10] 姜忠義，郭瑞麗，祖鳳華，吳洪，樸佳銳，方新，馬曉聰. 一種聚乙烯醇/聚醚砜滲透蒸發(fā)復合膜的制備方法，2011.4，中國，ZL200810106230.0

公開專利：

[1]   姜忠義，趙雪婷，蘇延磊. 填充含聚硅氧烷兩親性表面改性劑的抗污染膜及其制備方法，2013.10，中國，CN201310492143.4

[2]   姜忠義，王少飛，李奕帆，劉燁. 一種碳納米管填充雜化膜及其制備方法和應用，2013.10，中國，CN201310492142.X

[3]   姜忠義，趙雪婷，蘇延磊. 一種聚硅氧烷改性聚醚砜超濾膜及其制備方法，2013.5，中國，CN201310172190.0

[4]   姜忠義，劉闖，楊冬. 二氧化鈦-銀納米復合材料及其合成方法，2013.5，中國，CN201310169776.1

[5]   姜忠義，聶玲麗，何光偉，吳洪. 高分子-微囊復合膜及其制備和應用，2013.5，中國，CN201310169773.8

[6]   姜忠義，彭金明，蘇延磊. 抗污染自清潔油水分離膜的無溶劑制備方法，2012.9，中國，CN201210367737.8

[7]   姜忠義，蘇延磊，陳文娟. 用于制備優(yōu)良性能膜的含氟兩親性改性材料及制備方法，2012.7，中國，CN201210230131.X

[8]   姜忠義，蘇延磊，陳文娟. 填充含氟兩親性表面改性材料的優(yōu)良性能膜及制備方法，2012.7，中國，CN201210261198.X

[9]   姜忠義，蘇延磊，陳文娟. 填充含氟兩親性表面改性材料的抗污染膜及其制備方法，2011.3，中國，CN201110062404.X

[10] 姜忠義，張蕾，石家福. 模擬體液法仿生制備有機無機雜化微囊及其制備方法，2009.10，中國，CN200910070808.6

合作交流:

    主持國際會議6次，在美國化學會年會、美國化學工程師協(xié)會年會等國際會議和美國加州理工學院、美國UOP公司等做邀請報告20余次