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with Ladder polymers as keyword
Cai, Zhili Liu, Yitao Wang, Can Xie, Wei Jiao, Yang Shan, Linglong Gao, Peiyuan Wang, Haitao Luo, Shuangjiang
Polymers of intrinsic microporosity have attracted comprehensive attention in membrane-mediated gas separation because of their rigid and contorted structure that facilitates well-defined microporosity for fast and selective gas transport. We report a new macromolecular design synthesizes semi-ladder and fully-ladder polymers of intrinsic microporo...
Cai, Zhili Liu, Yitao Wang, Can Xie, Wei Jiao, Yang Shan, Linglong Gao, Peiyuan Wang, Haitao Luo, Shuangjiang
Polymers of intrinsic microporosity have attracted comprehensive attention in membrane-mediated gas separation because of their rigid and contorted structure that facilitates well-defined microporosity for fast and selective gas transport. We report a new macromolecular design synthesizes semi-ladder and fully-ladder polymers of intrinsic microporo...
Liu, Yaodong Chae, Han Gi Kumar, Satish
Addition of carbon nanotubes (CNTs) in polyacrylonitrile (PAN) fibers significantly improves the mechanical properties of the resulting carbon fibers. This study focuses on the effect of different types of CNTs on chemical, mechanical and structural changes during the stabilization of gel-spun CNT/PAN composite fibers. Among the different types of ...
McKeown, Neil B Budd, Peter M Book, David
A review. Microporous org. polymers offer the possibility of storing hydrogen safely at low temps. and moderate pressures via physisorption. A range of polymers of intrinsic microporosity (PIMs) were studied. The best PIM to date is based on a triptycene monomer and takes up 2.7% H2 by mass at 10 bar/77 K. Hypercrosslinked polymers (HCPs) also show...
Nagarathinam, M. Vittal, J.J.
10.1002/marc.200600246 / Macromolecular Rapid Communications / 27 / 14 / 1091-1099 / MRCOE
Nagarathinam, M. Vittal, J.J.
10.1002/anie.200600376 / Angewandte Chemie - International Edition / 45 / 26 / 4337-4341 / ACIEA