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KITAGAWA Integrated Pores

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Research Director: Susumu KITAGAWA<br />
Professor, The Institute for Integrated Cell-Material Sciences, Kyoto University<br />
Research Term: 2007-2012

Research Director: Susumu KITAGAWA
Professor, The Institute for Integrated Cell-Material Sciences, Kyoto University
Research Term: 2007-2012

Research Director: Omar M. Yaghi<br />
Professor, Los Angeles chemistry / biochemistry course, University of California<br />
<br />
Recently, remarkable progress has been made in the synthesis of coordination compounds with infinite structures, and in particular compounds with backbones constructed from metal ions as connectors and ligands as linkers, so-called coordination polymers (CPs). The pores of porous CPs (PCP) can exhibit a versatile array of functions, such as storage, exchange, separation, and catalysis. To date PCPs are found in fledgling, ePhase If developments, in which pore functions are explored individually. Our aim of this project is to establish a symbiotic integration of porous materials and porous functions; hence, to develop PCPs with gcontrollable and flexible performance responsive to target environmentsh, that is ePhase IIf developments. These environments range in size from the intermolecular or interatomic distances of the pores of materials (0.1-10 nm) up to the space inside biological cells (100 nm). Nonlinear, cooperative events taking place in mesospace present challenging problems and may hold the key to the technologies of tomorrow.

Research Director: Omar M. Yaghi
Professor, Los Angeles chemistry / biochemistry course, University of California

Recently, remarkable progress has been made in the synthesis of coordination compounds with infinite structures, and in particular compounds with backbones constructed from metal ions as connectors and ligands as linkers, so-called coordination polymers (CPs). The pores of porous CPs (PCP) can exhibit a versatile array of functions, such as storage, exchange, separation, and catalysis. To date PCPs are found in fledgling, ePhase If developments, in which pore functions are explored individually. Our aim of this project is to establish a symbiotic integration of porous materials and porous functions; hence, to develop PCPs with gcontrollable and flexible performance responsive to target environmentsh, that is ePhase IIf developments. These environments range in size from the intermolecular or interatomic distances of the pores of materials (0.1-10 nm) up to the space inside biological cells (100 nm). Nonlinear, cooperative events taking place in mesospace present challenging problems and may hold the key to the technologies of tomorrow.

LABORATORY

2106,2107 Kyodai Katsura Venture Plaza,1-39, Goryo-ohara, Nishikyo-ku, Kyoto@615-8245@Japan
TEL: +81-(0)75-381-1311

PROJECT OFFICE

011 Katsura Int' tech Center,Kyoto daigaku-Katsura,Nishikyo-ku, Kyoto@615-8530@Japan
TEL: +81-(0)75-383-2103

Research Manager: George Akiyama
Administrative Manager: Shuhei Noda