メンバー/Member

松田 亮太郎 / Ryotaro Matsuda

KUIAS-iCeMS, 客員教授 (名古屋大学大学院工学研究科 化学・生物工学専攻)
氏名松田 亮太郎 / Ryotaro Matsuda
専門固体化学 / 超分子化学 / 表面・吸着科学 / 集積型金属錯体 / 多孔性材料
所属KUIAS-iCeMS, 客員教授 (名古屋大学大学院工学研究科 化学・生物工学専攻)
mailrmatsuda[at]icems.kyoto-u.ac.jp ([at]を半角の@に置き換えてください。)

住所

〒464-8603 愛知県名古屋市千種区不老町工学部1号館915号室
名古屋大学大学院工学研究科
化学・生物工学専攻 応用化学分野 無機材料・計測化学講座

Department of Applied Chemistry, Graduate School of Engineering, Nagoya University
Address: School of Engineering bldg. 1, Furo-cho, Chikusa-ku, Nagoya 464-8603, Japan

TEL:052-789-7483
E-mail: rmatsuda[at]icems.kyoto-u.ac.jp ([at]を半角の@に置き換えてください。)
Laboratory HP

経歴

2000.3 京都大学工学部工業化学科 卒業
2005.3 京都大学大学院工学研究科合成・生物化学専攻博士課程 研究指導認定退学
2005.5 博士(工学) (京都大学) 取得
2005.4 – 2006.2 (独)科学技術振興機構創造的研究推進事業・CREST研究員
2006.3 – 2008.3 九州大学先導物質化学研究所・助手/助教
2008.4 – 2013.3 (独)科学技術振興機構創造的研究推進事業ERATO北川統合細孔プロジェクト・グループリーダー
2013.4 – 2015.10 京都大学物質-細胞統合システム・拠点 特定准教授
2015.11 – Present 名古屋大学大学院工学研究科 化学・生物工学専攻 応用化学分野 無機材料・計測化学講座 教授
Other posts
2007.6 – 2010.3 (財)高輝度光科学研究センター利用促進部門・外来研究員
2008.4 – 2013.3 京都大学物質-細胞統合システム・拠点 特任准教授
2008.4 – 2014.3 (独)理化学研究所量子秩序研究グループ・客員研究員
2013.4 – 2014.3 (独)理化学研究所放射光科学総合研究センター 利用技術開拓研究部門・客員研究員

専門

固体化学 / 超分子化学 / 表面・吸着科学 / 集積型金属錯体 / 多孔性材料

学会

日本化学会

日本化学会 コロイドおよび表面化学部会

錯体化学会

日本吸着学会

受賞

2015.4 文部科学大臣表彰 若手科学者賞 (文部科学省)

2012.11 平成24年度日本吸着学会奨励賞 (カルゴン カーボン ジャパン賞) (日本吸着学会)

2012.3 第61回進歩賞 (日本化学会)

2010.9 平成22年度錯体化学研究奨励賞 (錯体化学会)

2007.2 第23回井上研究奨励賞 (井上科学振興財団)

2017

[79] Cooperative Bond Scission in a Soft Porous Crystal Enables Discriminatory Gate Opening for Ethylene over Ethane

Susan Sen; Nobuhiko Hosono; Jia-Jia Zheng,; Shinpei Kusaka; Ryotaro Matsuda; Shigeyoshi Sakaki; Susumu Kitagawa
J. Am. Chem. Soc., 2017, 139, 50, 18313 – 18321

2016

[78] An Adsorbate Discriminatory Gate Effect in a Flexible Porous Coordination Polymer for Selective Adsorption of CO2 over C2H2

Maw Lin Foo; Ryotaro Matsuda; Yuh Hijikata; Rajamani Krishna; Hiroshi Sato; Satoshi Horike; Akihiro Hori; Jingui Duan; Yohei Sato; Yoshiki Kubota; Masaki Takata; Susumu Kitagawa
J. Am. Chem. Soc., 2016, 138, 9, 3022 – 3030
DOI: 10.1021/jacs.5b10491, publication date: February 15, 2016

[77] Metal–Organic Polyhedral Core as a Versatile Scaffold for Divergent and Convergent Star Polymer Synthesis

Nobuhiko Hosono; Mika Gochomori; Ryotaro Matsuda; Hiroshi Sato; Susumu Kitagawa
J. Am. Chem. Soc., 2016, 138, 6525 – 6531
DOI: 10.1021/jacs.6b01758

[76] Constant Volume Gate-Opening by Freezing Rotational Dynamics in Microporous Organically Pillared Layered Silicates

Kilian Bärwinkel; MarkusM.Herling; Martin Rieß; Hiroshi Sato; Liangchun Li; Yamini S. Avadhut; Tobias W. Kemnitzer; Hussein Kalo; Jürgen Senker; Ryotaro Matsuda; Susumu Kitagawa; Josef Breu
J. Am. Chem. Soc., 2016, in press,
DOI: 10.1021/jacs.6b11124(in press)

2015

[75] Remarkable Oxygen Intake/Release of BaYMn2O5+δ Viewed from High-Temperature Crystal Structure

Motohashi Teruki; Takahashi Taira; Kimura Makoto; Masubuchi Yuji; Kikkawa Shinichi; Kubota Yoshiki; Kobayashi Yoji; Kageyama Hiroshi; Takata Masaki; Kitagawa Susumu; Matsuda Ryotaro
J. Phys. Chem. C, 2015, 119, 5, 2356 – 2363
DOI: 10.1021/jp511648b, publication date: January 14, 2015

[74] A Convenient Strategy for Designing a Soft Nanospace: An Atomic Exchange in a Ligand with Isostructural Frameworks

Yunsheng Ma; Ryotaro Matsuda; Hiroshi Sato; Yuh Hijikata; Liangchun Li; Shinpei Kusaka; Mawlin Foo; Fengfeng Xue; George Akiyama; Rongxin Yuan; Susumu Kitagawa
J. Am. Chem. Soc., 2015, 137, 50, 15825 – 15832
DOI: 10.1021/jacs.5b09666, publication date: November 21, 2015

[73] Porous coordination polymers with ubiquitous and biocompatible metals and a neutral bridging ligand

Shin-ichiro Noro; Junya Mizutani; Yuh Hijikata; Ryotaro Matsuda; Hiroshi Sato; Susumu Kitagawa; Kunihisa Sugimoto; Yasutaka Inubushi; Kazuya Kubo; Takayoshi Nakamura
Nature Commun., 2015, 6, 5851
DOI: 10.1038/ncomms6851, publication date: January 16, 2015

2014

[72] Self-Accelerating CO Sorption in a Soft Nanoporous Crystal

H. Sato; W. Kosaka; R. Matsuda; A. Hori; Y. Hijikata; R. V. Belosludov; S. Sakaki; M. Takata; S. Kitagawa
Science, 2014, 343, 167 – 170
(Corresponding Author)

[71] Highly proton conductive nanoporous coordination polymers with sulfonic acid groups on the pore surface

P. Ramaswamy; R. Matsuda; W. Kosaka; G. Akiyama; H. J. Jeon; S. Kitagawa
Chem. Commun., 2014, 50, 1144 – 1146
(Corresponding Author)

[70] Microporous structures having phenylene fin: Significance of substituent groups for rotational linkers in coordination polymers

R. Matsuda; W. Kosaka; R. Kitaura; Y. Kubota; M. Takata; S. Kitagawa
Microporous Mesoporous Mater., 2014,
(Corresponding Author)

[69] A Crystalline Porous Coordination Polymer Decorated with Nitroxyl Radicals Catalyzes Aerobic Oxidation of Alcohols

Liangchun Li; Ryotaro Matsuda; Iku Tanaka; Hiroshi Sato; Prakash Kanoo; Hyung Joon Jeon; Maw Lin Foo; Atsushi Wakamiya; Yasujiro Murata; Susumu Kitagawa
J. Am. Chem. Soc., 2014, 136, 7543 – 7546

[68] The densely fluorinated nanospace of a porous coordination polymer composed of perfluorobutyl-functionalized ligands

Hyung Joon Jeon; Ryotaro Matsuda; Prakash Kanoo; Hiroshi Kajiro; Liangchun Li; Hiroshi Sato; Yongtai Zheng; Susumu Kitagawa
Chem. Commun., 2014, 50, 10861 – 10863

[67] Catalytic Glucose Isomerization by Porous Coordination Polymers with Open Metal Sites

George Akiyama; Ryotaro Matsuda; Hiroshi Sato; Susumu Kitagawa
Chem. Asian. J., 2014, 9, 2772 – 2777

2013

[66] Design and Synthesis of Porous Coordination Polymers Showing Unique Guest Adsorption Behaviors

R. Matsuda
Bull. Chem. Soc. Jpn., 2013, 86, 1117 – 1131
(Corresponding Author)

[65] CO2 superabsorption in a paddlewheel-type Ru dimer chain compound: gate-open performance dependent on inter-chain interactions

W. Kosaka; K. Yamagishi; H. Yoshida; R. Matsuda; S. Kitagawa; M. Takata; H. Miyasaka
Chem. Commun., 2013, 49, 1594 – 1596

[64] Selective NO Trapping in the Pores of Chain-Type Complex Assemblies Based on Electronically Activated Paddlewheel-Type Ru-2(II,II) / Rh-2(II,II) Dimers

W. Kosaka; K. Yamagishi; A. Hori; H. Sato; R. Matsuda; S. Kitagawa; M. Takata; H. Miyasaka
J. Am. Chem. Soc., 2013, 135, 18469 – 18480

[63] In Situ Generation of Functionality in a Reactive Haloalkane-Based Ligand for the Design of New Porous Coordination Polymers

P. Kanoo; R. Matsuda; H. Sato; L. C. Li; H. J. Jeon; S. Kitagawa
Inorg. Chem., 2013, 52, 10735 – 10737

[62] Spin-Dependent Molecular Orientation of O2-O2 Dimer Formed in the Nanoporous Coordination Polymer

A. Hori; T. C. Kobayashi; Y. Kubota; A. Matsuo; K. Kindo; J. Kim; K. Kato; M. Takata; H. Sakamoto; R. Matsuda; S. Kitagawa
J. Phys. Soc. Jpn., 2013, 82 , 084703
(6pages)

[61] Functional Hybrid Porous Coordination Polymers

M. L. Foo; R. Matsuda; S. Kitagawa
Chem. Mater., 2013, 26, 310 – 322
(Corresponding Author)

[60] Reversible Chemisorption of Sulfur Dioxide in a Spin Crossover Porous Coordination Polymer

Z. Arcis-Castillo; F. J. Munoz-Lara; M. C. Munoz; D. Aravena; A. B. Gaspar; J. F. Sanchez-Royo; E. Ruiz; M. Ohba; R. Matsuda; S. Kitagawa; J. A. Real
Inorg. Chem., 2013, 52, 12777 – 12783

2012

[59] Selective CO2 uptake and inverse CO2/C2H2 selectivity in a dynamic bifunctional metal-organic framework

W. B. Yang; A. J. Davies; X. Lin; M. Suyetin; R. Matsuda; A. J. Blake; C. Wilson; W. Lewis; J. E. Parker; C. C. Tang; M. W. George; P. Hubberstey; S. Kitagawa; H. Sakamoto; E. Bichoutskaia; N. R. Champness; S. H. Yang; M. Schroder
Chem. Sci., 2012, 3, 2993 – 2999

[58] Inclusion and dielectric properties of a vinylidene fluoride oligomer in coordination nanochannels

N. Yanai; T. Uemura; W. Kosaka; R. Matsuda; T. Kodani; M. Koh; T. Kanemura; S. Kitagawa
Dalton Trans., 2012, 41, 4195 – 4198

[57] Guest-to-Host Transmission of Structural Changes for Stimuli-Responsive Adsorption Property

N. Yanai; T. Uemura; M. Inoue; R. Matsuda; T. Fukushima; M. Tsujimoto; S. Isoda; S. Kitagawa
J. Am. Chem. Soc., 2012, 134, 4501 – 4504

[56] Photochemical cycloaddition on the pore surface of a porous coordination polymer impacts the sorption behavior

H. Sato; R. Matsuda; M. H. Mir; S. Kitagawa
Chem. Commun., 2012, 48, 7919 – 7921
(Corresponding Author)

[55] Systematic mechanochemical preparation of a series of coordination pillared layer frameworks

H. Sakamoto; R. Matsuda; S. Kitagawa
Dalton Trans., 2012, 41, 3956 – 3961

[54] Highly rigid and stable porous Cu(I) metal-organic framework with reversible single-crystal-to-single-crystal structural transformation

S. Mohapatra; H. Sato; R. Matsuda; S. Kitagawa; T. K. Maji
Crystengcomm, 2012, 14, 4153 – 4156

[53] Topological Difference in 2D Layers Steers the Formation of Rigid and Flexible 3D Supramolecular Isomers: Impact on the Adsorption Properties

P. Kanoo; R. Matsuda; R. Kitaura; S. Kitagawa; T. K. Maji
Inorg. Chem., 2012, 51, 9141 – 9143

[52] Effect of functional groups in MIL-101 on water sorption behavior

G. Akiyama; R. Matsuda; H. Sato; A. Hori; M. Takata; S. Kitagawa
Microporous Mesoporous Mater., 2012, 157, 89 – 93
(Corresponding Author)

2011

[51] Gas detection by structural variations of fluorescent guest molecules in a flexible porous coordination polymer

N. Yanai; K. Kitayama; Y. Hijikata; H. Sato; R. Matsuda; Y. Kubota; M. Takata; M. Mizuno; T. Uemura; S. Kitagawa
Nature Mater., 2011, 10, 787 – 793

[50] Impact of Metal Ion Dependence on the Porous and Electronic Properties of TCNQ-Dianion-Based Porous Coordination Polymers

S. Shimomura; N. Yanai; R. Matsuda; S. Kitagawa
Inorg. Chem., 2011, 50, 172 – 177

[49] Soft Secondary Building Unit: Dynamic Bond Rearrangement on Multinuclear Core of Porous Coordination Polymers in Gas Media

J. Seo; C. Bonneau; R. Matsuda; M. Takata; S. Kitagawa
J. Am. Chem. Soc., 2011, 133, 9005 – 9013
(Corresponding Author)

[48] A pillared-bilayer porous coordination polymer with a 1D channel and a 2D interlayer space, showing unique gas and vapor sorption

P. Kanoo; G. Mostafa; R. Matsuda; S. Kitagawa; T. K. Maji
Chem. Commun., 2011, 47, 8106 – 8108

[47] Relationship between Channel and Sorption Properties in Coordination Polymers with Interdigitated Structures

Y. Hijikata; S. Horike; M. Sugimoto; H. Sato; R. Matsuda; S. Kitagawa
Chem. Eur. J., 2011, 17, 5138 – 5144

[46] Cellulose Hydrolysis by a New Porous Coordination Polymer Decorated with Sulfonic Acid Functional Groups

G. Akiyama; R. Matsuda; H. Sato; M. Takata; S. Kitagawa
Adv. Mater., 2011, 23, 3294 – +
(Corresponding Author)

2010

[45] Exceptional Thermal Stability in a Supramolecular Organic Framework: Porosity and Gas Storage

W. B. Yang; A. Greenaway; X. A. Lin; R. Matsuda; A. J. Blake; C. Wilson; W. Lewis; P. Hubberstey; S. Kitagawa; N. R. Champness; M. Schroder
J. Am. Chem. Soc., 2010, 132, 14457 – 14469

[44] Periodic molecular boxes in entangled enantiomorphic lcy nets

Y. Takashima; C. Bonneau; S. Furukawa; M. Kondo; R. Matsuda; S. Kitagawa
Chem. Commun., 2010, 46, 4142 – 4144

[43] Flexibility of Porous Coordination Polymers Strongly Linked to Selective Sorption Mechanism

S. Shimomura; R. Matsuda; S. Kitagawa
Chem. Mater., 2010, 22, 4129 – 4131

[42] Selective sorption of oxygen and nitric oxide by an electron-donating flexible porous coordination polymer

S. Shimomura; M. Higuchi; R. Matsuda; K. Yoneda; Y. Hijikata; Y. Kubota; Y. Mita; J. Kim; M. Takata; S. Kitagawa
Nature chem. , 2010, 2, 633 – 637

[41] Chemistry of Porous Coordination Polymers Having Multimodal Nanospace and Their Multimodal Functionality

J. Seo; H. Sakamoto; R. Matsuda; S. Kitagawa
Journal of Nanoscience and Nanotechnology, 2010, 10, 3 – 20

[40] Photoactivation of a nanoporous crystal for on-demand guest trapping and conversion

H. Sato; R. Matsuda; K. Sugimoto; M. Takata; S. Kitagawa
Nature Mater., 2010, 9, 661 – 666
(Corresponding Author)

[39] Systematic Construction of Porous Coordination Pillared-layer Structures and Their Sorption Properties

H. Sakamoto; R. Kitaura; R. Matsuda; S. Kitagawa; Y. Kubota; M. Takata
Chem. Lett., 2010, 39, 218 – 219

[38] Magnetic properties of nitric oxide molecules physisorbed into nano-sized pores of MCM-41

M. Mito; T. Tatano; Y. Komorida; T. Tajiri; H. Deguchi; S. Takagi; S. Kohiki; M. Ohba; R. Matsuda; S. Kitagawa
Microporous Mesoporous Mater., 2010, 132, 464 – 469

[37] Temperature responsive channel uniformity impacts on highly guest-selective adsorption in a porous coordination polymer

R. Matsuda; T. Tsujino; H. Sato; Y. Kubota; K. Morishige; M. Takata; S. Kitagawa
Chem. Sci., 2010, 1, 315 – 321
(Corresponding Author)

[36] Incommensurate guest adsorption in bellows-shaped one-dimensional channels of porous coordination polymers

R. Matsuda; R. Kitaura; Y. Kubota; T. C. Kobayashi; M. Takata; S. Kitagawa
Microporous Mesoporous Mater., 2010, 129, 296 – 303
(Corresponding Author)

[35] Modification of flexible part in Cu2+ interdigitated framework for CH4/CO2 separation

Y. Inubushi; S. Horike; T. Fukushima; G. Akiyama; R. Matsuda; S. Kitagawa
Chem. Commun., 2010, 46, 9229 – 9231

[34] High-Field Magnetization Process of O(2) Adsorbed in a Microporous Coordination Polymer CPL-1 at Various Temperatures

A. Hori; T. C. Kobayashi; A. Matsuo; K. Kindo; R. Matsuda; S. Kitagawa
International Conference on Magnetism (Icm 2009), 2010, 200

[33] Control of Interpenetration for Tuning Structural Flexibility Influences Sorption Properties

S. Bureekaew; H. Sato; R. Matsuda; Y. Kubota; R. Hirose; J. Kim; K. Kato; M. Takata; S. Kitagawa
Angew. Chem., Int. Ed., 2010, 49, 7660 – 7664
(Corresponding Author)

[32] Highly Porous and Stable Coordination Polymers as Water Sorption Materials

G. Akiyama; R. Matsuda; S. Kitagawa
Chem. Lett., 2010, 39, 360 – 361
(Corresponding Author)

2009

[31] A Pillared-Layer Coordination Polymer with a Rotatable Pillar Acting as a Molecular Gate for Guest Molecules

J. Seo; R. Matsuda; H. Sakamoto; C. Bonneau; S. Kitagawa
J. Am. Chem. Soc., 2009, 131, 12792 – 12800

[30] A Porous Coordination Polymer with Accessible Metal Sites and its Complementary Coordination Action

H. Sakamoto; R. Matsuda; S. Bureekaew; D. Tanaka; S. Kitagawa
Chem. Eur. J., 2009, 15, 4985 – 4989

[29] Hindered Rotation of Methane Molecules in the One-Dimensional Nanochannel of a Porous Coordination Polymer

Y. Kubota; M. Takata; R. Kitaura; R. Matsuda; T. C. Kobayashi; S. Kitagawa
Journal of Nanoscience and Nanotechnology, 2009, 9, 69 – 76

[28] New Interpenetrated Copper Coordination Polymer Frameworks having Porous Properties

P. Kanoo; R. Matsuda; M. Higuchi; S. Kitagawa; T. K. Maji
Chem. Mater., 2009, 21, 5860 – 5866

[27] Bistability of Magnetization without Spin-Transition in a High-Spin Cobalt(II) Complex due to Angular Momentum Quenching

G. Juhasz; R. Matsuda; S. Kanegawa; K. Inoue; O. Sato; K. Yoshizawa
J. Am. Chem. Soc., 2009, 131, 4560 – +

[26] Heterogeneously Hybridized Porous Coordination Polymer Crystals: Fabrication of Heterometallic Core-Shell Single Crystals with an In-Plane Rotational Epitaxial Relationship

S. Furukawa; K. Hirai; K. Nakagawa; Y. Takashima; R. Matsuda; T. Tsuruoka; M. Kondo; R. Haruki; D. Tanaka; H. Sakamoto; S. Shimomura; O. Sakata; S. Kitagawa
Angew. Chem., Int. Ed., 2009, 48, 1766 – 1770

2008

[25] Storage and sorption properties of acetylene in jungle-gym-like open frameworks

D. Tanaka; M. Higuchi; S. Horike; R. Matsuda; Y. Kinoshita; N. Yanai; S. Kitagawa
Chem. Asia. J., 2008, 3, 1343 – 1349

[24] Magnetic and photo-magnetic properties of Co dinuclear complexes

O. Sato; S. Miura; H. Maruyama; Y. J. Zhang; D. Y. Wu; W. Zhang; H. T. Xu; R. Matsuda; H. L. Sun; J. Tao
Inorg. Chim. Acta, 2008, 361, 3659 – 3662

[23] Nanochannels of two distinct cross-sections in a porous Al-based coordination polymer

A. Comotti; S. Bracco; P. Sozzani; S. Horike; R. Matsuda; J. Chen; M. Takata; Y. Kubota; S. Kitagawa
J. Am. Chem. Soc., 2008, 130, 13664 – 13672

2007

[22] Guest-specific function of a flexible undulating channel in a 7,7,8,8-tetracyano-p-quinodimethane dimer-based porous coordination polymer

S. Shimomura; S. Horike; R. Matsuda; S. Kitagawa
J. Am. Chem. Soc., 2007, 129, 10990 – +

[21] Photo-induced valence tautomerism in Co complexes

O. Sato; A. L. Cui; R. Matsuda; J. Tao; S. Hayami
Acc. Chem. Res., 2007, 40, 361 – 369

[20] A flexible interpenetrating coordination framework with a bimodal porous functionality

T. K. Maji; R. Matsuda; S. Kitagawa
Nature Mater., 2007, 6, 142 – 148

[19] Chemistry of coordination space of porous coordination polymers

S. Kitagawa; R. Matsuda
Coord. Chem. Rev., 2007, 251, 2490 – 2509

[18] Three-dimensional porous coordination polymer functionalized with amide groups based on tridentate ligand: Selective sorption and catalysis

S. Hasegawa; S. Horike; R. Matsuda; S. Furukawa; K. Mochizuki; Y. Kinoshita; S. Kitagawa
J. Am. Chem. Soc., 2007, 129, 2607 – 2614

2006

[17] TCNQ dianion-based coordination polymer whose open framework shows charge-transfer type guest inclusion

S. Shimomura; R. Matsuda; T. Tsujino; T. Kawamura; S. Kitagawa
J. Am. Chem. Soc., 2006, 128, 16416 – 16417

[16] Chemical reaction-inspired crystal growth of a coordination polymer toward morphology design and control

S. Masaoka; D. Tanaka; H. Kitahata; S. Araki; R. Matsuda; K. Yoshikawa; K. Kato; M. Takata; S. Kitagawa
J. Am. Chem. Soc., 2006, 128, 15799 – 15808

[15] Metastable sorption state of a metal-organic porous material determined by in situ synchrotron powder diffraction

Y. Kubota; M. Takata; R. Matsuda; R. Kitaura; S. Kitagawa; T. C. Kobayashi,
Angew. Chem., Int. Ed., 2006, 45, 4932 – 4936

[14] Immobilization of sodium ions on the pore surface of a porous coordination polymer

S. Horike; R. Matsuda; D. Tanaka; M. Mizuno; K. Endo; S. Kitagawa
J. Am. Chem. Soc., 2006, 128, 4222 – 4223

[13] Dynamic motion of building blocks in porous coordination polymers

S. Horike; R. Matsuda; D. Tanaka; S. Matsubara; M. Mizuno; K. Endo; S. Kitagawa
Angew. Chem., Int. Ed., 2006, 45, 7226 – 7230

2005

[12] Flexible microporous coordination polymers

K. Uemura; R. Matsuda; S. Kitagawa
J. Solid State Chem., 2005, 178, 2420 – 2429

[11] Highly controlled acetylene accommodation in a metal-organic microporous material

R. Matsuda; R. Kitaura; S. Kitagawa; Y. Kubota; R. V. Belosludov; T. C. Kobayashi; H. Sakamoto; T. Chiba; M. Takata; Y. Kawazoe; Y. Mita
Nature, 2005, 436, 238 – 241

[10] Guest-induced asymmetry in a metal-organic porous solid with reversible single-crystal-to-single-crystal structural transformation

T. K. Maji; G. Mostafa; R. Matsuda; S. Kitagawa
J. Am. Chem. Soc., 2005, 127, 17152 – 17153

[9] Direct observation of hydrogen molecules adsorbed onto a microporous coordination polymer

Y. Kubota; M. Takata; R. Matsuda; R. Kitaura; S. Kitagawa; K. Kato; M. Sakata; T. C. Kobayashi
Angew. Chem., Int. Ed., 2005, 44, 920 – 923

[8] Magnetic properties of molecular oxygen adsorbed in micro-porous metal-organic solids

A. Matsuo; M. Suzuki; K. Kindo; R. Kitaura; R. Matsuda; S. Kitagawa
Progress of Theoretical Physics Supplement, 2005, 271 – 279

[7] Formation and characterization of crystalline molecular arrays of gas molecules in a 1-dimensional ultramicropore of a porous copper coordination polymer

R. Kitaura; R. Matsuda; Y. Kubota; S. Kitagawa; M. Takata; T. C. Kobayashi; M. Suzuki
J. Phys. Chem. B, 2005, 109, 23378 – 23385

2004

[6] Magnetism of a one-dimensional array of oxygen in a micro-porous metal-organic solid

A. Matsuo; T. C. Kobayashi; M. Suzuki; K. Kindo; R. Kitaura; R. Matsuda; H. C. Chang; S. Kitagawa
J. Magn. Magn. Mater., 2004, 272, E643 – E645

[5] Guest shape-responsive fitting of porous coordination polymer with shrinkable framework

R. Matsuda; R. Kitaura; S. Kitagawa; Y. Kubota; T. C. Kobayashi; S. Horike; M. Takata
J. Am. Chem. Soc., 2004, 126, 14063 – 14070

[4] Expanding and shrinking porous modulation based on pillared-layer coordination polymers showing selective guest adsorption

T. K. Maji; K. Uemura; H. C. Chang; R. Matsuda; S. Kitagawa
Angew. Chem., Int. Ed., 2004, 43, 3269 – 3272

[3] Immobilization of a metallo Schiff base into a microporous coordination polymer

R. Kitaura; G. Onoyama; H. Sakamoto; R. Matsuda; S. Noro; S. Kitagawa
Angew. Chem., Int. Ed., 2004, 43, 2684 – 2687

[2] Rational design and crystal structure determination of a 3-D metal-organic jungle-gym-like open framework

R. Kitaura; F. Iwahori; R. Matsuda; S. Kitagawa; Y. Kubota; M. Takata; T. C. Kobayashi
Inorg. Chem., 2004, 43, 6522 – 6524

[1] Motion of methanol adsorbed in porous coordination polymer with paramagnetic metal ions

S. Horike; R. Matsuda; R. Kitaura; S. Kitagawa; T. Iijima; K. Endo; Y. Kubota; M. Takata
Chem. Commun., 2004, 2152 – 2153

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