S
Susumu Kitagawa
Researcher at Kyoto University
Publications - 814
Citations - 77858
Susumu Kitagawa is an academic researcher from Kyoto University. The author has contributed to research in topics: Coordination polymer & Adsorption. The author has an hindex of 125, co-authored 809 publications receiving 69594 citations. Previous affiliations of Susumu Kitagawa include Tokyo Metropolitan University & Okayama University.
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Water-resistant porous coordination polymers for gas separation
TL;DR: In this paper, a review of water-resistant porous coordination polymers is presented with an emphasis on their adsorptive-and membrane-based gas separations, which is intended to be useful for researchers who are interested in designing water resistant PCPs and exploring promising applications for gas separation.
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Guest-induced asymmetry in a metal-organic porous solid with reversible single-crystal-to-single-crystal structural transformation.
TL;DR: A metal-organic honeycomb-like 2D pillared-bilayer open framework has been constructed which shows dynamic sponge-like single-crystal-to-single-Crystal transformation upon dehydration and rehydration.
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Selective sorption of oxygen and nitric oxide by an electron-donating flexible porous coordination polymer
Satoru Shimomura,Masakazu Higuchi,Ryotaro Matsuda,Ko Yoneda,Yuh Hijikata,Yoshiki Kubota,Yoshimi Mita,Jungeun Kim,Masaki Takata,Susumu Kitagawa +9 more
TL;DR: The effective selective sorption of dioxygen and nitric oxide is described by a structurally and electronically dynamic porous coordination polymer built from zinc centres and tetracyanoquinodimethane (TCNQ) as a linker.
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Kinetic Gate‐Opening Process in a Flexible Porous Coordination Polymer
Daisuke Tanaka,Keiji Nakagawa,Masakazu Higuchi,Satoshi Horike,Yoshiki Kubota,Tatsuo C. Kobayashi,Masaki Takata,Susumu Kitagawa +7 more
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A pillared-layer coordination polymer with a rotatable pillar acting as a molecular gate for guest molecules.
TL;DR: The X-ray structures indicate that the 3D host framework is retained during the transformations, involving mainly rotation of the pillars and slippage of the layers, and this reports on a molecular gate with a rotational module exhibiting a locking/unlocking system which accounts for gate-opening type sorption profiles.