Dr Michael Guiver obtained his BSc in chemistry from London University, his MSc in chemistry (Carleton), and his PhD in polymer chemistry from Carleton University, Canada, in 1988. His work at the National Research Council Canada (NRC) has been in the design of specialty polymer materials for membrane separations. He has been an Editor for the Journal of Membrane Science since 2009. He is also on the Editorial Advisory Board for Macromolecules and ACS Macro Letters, on the International Advisory Board of Macromolecular Research and on the Editorial Board of Polymers. 

Publications:

[1] Nanostructured Ion Exchange Membranes for Fuel Cells: Recent Advances and Perspective, Guangwei He, Zhen Li, Jing Zhao, Shaofei Wang, Hong Wu, Michael D. Guiver*, Zhongyi Jiang*, Adv. Mater., 27, 5280 – 5295 (2015). (IF = 18.960).

[2] Tunable nanochannels along graphene oxide / polymer core-shell nanosheets enhance proton conductivity, Guangwei He, Chaoyi Chang, Mingzhao Xu, Shen Hu, Lingqiao Li, Jing Zhao, Zhen Li, Zongyu Li, Yongheng Yin, Mingyue Gang, Hong Wu, Xinlin Yang, Michael D. Guiver, Zhongyi Jiang*, Adv. Funct. Mater., 25, 7502 – 7511 (2015). (IF = 11.382).

[3] Alkaline Anion-Exchange Membranes containing mobile ion shuttles, Xiaolin Ge, Yubin He, Michael D. Guiver, Liang Wu,* Jin Ran, Zhengjin Yang and Tongwen Xu,* Advanced  Materials, 28, 3467 – 3472 (2016). (IF = 18.960).

[4] Advances in high permeability polymer-based membrane materials for CO₂ separations, Shaofei Wang, Xueqin Li, Hong Wu,* Zhizhang Tian, Qingping Xin, Guangwei He, Dongdong Peng, Silu Chen, Yan Yin, Zhongyi Jiang,* Michael D. Guiver,* Energy & Environ. Sci. 9, 1863 – 1890 (2016). (IF = 25.427).

[5] A highly permeable aligned montmorillonite mixed-matrix membrane for CO₂ separation, Zhihua Qiao, Song Zhao, Jixiao Wang, Shichang Wang, Zhi Wang*, Michael D. Guiver*, Angew. Chem. Int. Ed. 55, 9321 – 9325 (2016). (IF = 11.709).

[6] Highly Conductive Anion Exchange Membranes from Microporous Tröger’s Base Polymers, Zhengjin Yang, Rui Guo, Richard Malpass-Evans, Neil B. McKeown*, Michael D. Guiver*, Liang Wu, Tongwen Xu*, Angew. Chem. Int. Ed. 55, 11499 – 11502 (2016). (IF = 11.709).

[7] A highly permeable graphene oxide membrane with fast and selective transport nanochannels for efficient carbon capture, Shaofei Wang, Yingzhen Wu, Ning Zhang, Guangwei He, Qingping Xin, Xingyu Wu, Hong Wu, Xingzhong Cao^, Michael D. Guiver*, Zhongyi Jiang*, Energy & Environ. Sci. 9, 3107 – 3112 (2016). (IF = 25.427).

[8] Hydrocarbon-based polymer electrolyte membranes: Importance of morphology on ion transport and membrane stability, Dong Won Shin, Michael D. Guiver, Young Moo Lee*, Chem. Rev. 117, 4759 – 4805 (2017). (IF = 37.369).

[9] Bio-inspired ultra-strong solid electrolytes with fast proton conduction along 2D channels, Guangwei He, Mingzhao Xu, Jing Zhao, Shengtao Jiang, Shaofei Wang, Zhen Li, Xueyi He, Tong Huang, Moyuan Cao, Hong Wu, Michael D. Guiver*, and Zhongyi Jiang*, Advanced Materials, submitted 02 November 2016 (adma. 201605898), revision submitted 17 March 2017;  (IF = 18.960).