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<img src="pi1.ani.gif" hspace="16">;Nj0zvhˆÖŠ‡e0(1997^ÿ )<img src="pi1.ani.gif" hspace="16">
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û0 Unambiguous Evidence Supporting the Decomposition Reaction of NO on Two Types of Monovalent Copper-ion in CuZSM-5 Zeolite; A. Itadani, Y. Kuroda, M. Tanaka and M. Nagao, <i>Microporous Mesoporous Mater.</i>, in press.
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û0 Preparation of Visible-Light-Responsive TiO<sub>2-x</sub>N<sub>x</sub> Photocatalyst by a Sol-Gel Method: Analysis of the Active Center on TiO<sub>2</sub> that Reacts with NH<sub>3</sub>; Y. Kuroda, T. Mori, K. Yagi, N. Makihata, Y. Kawahara, M. Nagao and S. Kittaka, <i>Langmuir</i>, <b>21</b>, 8026-8034 (2005).
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û0 Anomalous Valence Changes and Dinitrogen Adsorption Features of Copper Ion Exchanged in ZSM-5 Zeolite Prepared from an Aqueous Solution of [Cu(NH<sub>3</sub>)<sub>2</sub>]<sup>+</sup>; Y. Kuroda, A. Itadani, R. Kumashiro, T. Fujimoto and M. Nagao, <i>Phys. Chem. Chem. Phys.</i>, <b>6</b>, 2534-2541 (2004).
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û0 Elucidation of a Preparation Method for Copper Ion-exchanged ZSM-5 Samples Exhibiting Extremely Efficient N<sub>2</sub>-adsorption at Room Temperature: Effect of Counter Ions in Exchanging Solution; A. Itadani, Y. Kuroda and M. Nagao, <i>Microporous Mesoporous Mater.</i>, <b>70</b>, 119-126 (2004).
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û0 Calorimetric Study of N<sub>2</sub> Adsorption on Copper-ion-exchanged ZSM-5 Zeolite; A. Itadani, R. Kumashiro, Y. Kuroda and M. Nagao, <i>Thermochim. Acta</i>, <b>416</b>, 99-104 (2004).
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û0 Relationship between Crystal Structure and Electrical Property of K<sub>2</sub>NiF<sub>4</sub>-type (Ca<sub>1-x</sub>Nd<sub>1+x</sub>)CoO<sub>4-´</sub>; H. Taguchi, H. Kido and K. Tabata, <i>Physica B</i>, <b>344</b>, 271-277 (2004).
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û0 Low-temperature Synthesis of Perovskite-type (Nd<sub>1-x</sub>Ca<sub>x</sub>)MnO<sub>3</sub> (0.0d"xd"0.5) via Polymerized Complex Route; H. Taguchi, M. Io, M. Yoshinaka, K. Hirota and O. Yamaguchi, <i>Solid State Ionics</i>, <b>172</b>, 611-615 (2004).
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û0 New Light on the State of Active Sites in CuZSM-5 for the NO Decomposition Reaction and N<sub>2</sub> Adsorption; Y. Kuroda, K. Yagi, N. Horiguchi, Y. Yoshikawa, R. Kumashiro and M. Nagao, <i>Phys. Chem. Chem. Phys.</i>, <b>5</b>, 3318-3327 (2003).
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û0 Hydration Process of Rare-earth Sesquioxides Having Different Crystal Structures; M. Nagao, H. Hamano, K. Hirata, R. Kumashiro and Y. Kuroda, <i>Langmuir</i>, <b>19</b>, 9201-9209 (2003).
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û0 Tetradentate Schiff Base-oxovanadium(c!) Complexes: Structures and Reactivities in the Solid State; M. Kojima, H. Taguchi, M. Tsuchimoto and K. Nakajima, <i>Coordination Chem. Rev.</i>, <b>237</b>, 183-196 (2003).
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û0 Preparation of a Water-resistant Siliceous MCM-41 Sample through Improvement of Crystallinity, and Its Prominent Adsorption Features; T. Mori, Y. Kuroda, Y. Yoshikawa, M. Nagao and S. Kittaka, <i>Langmuir</i>, <b>18</b>, 1595-1603 (2002).
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û0 Surface Characterization of LaCoO<sub>3</sub> Synthesized Using Citric Acid; H. Taguchi, S. Yamada, M. Nagao, Y. Ichikawa and K. Tabata, <i>Mater. Res. Bull.</i>, <b>37</b>, 69-76 (2002).
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û0 Microwave-assisted Simple Ion-exchange of ZSM-5-type Zeolites with Copper Ions and Their Specific Adsorption Properties for N<sub>2</sub> Molecules at Room Temperature; Y. Kuroda, T. Okamoto, R. Kumashiro, Y. Yoshikawa and M. Nagao, <i>Chem. Commun.</i>, <b>2002</b>, 1758-1759.
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û0 Characteristics of Silver Ions Exchanged in ZSM-5-type Zeolite, Aluminosilicate, and SiO<sub>2</sub> Samples: In Comparison with the Properties of Copper Ions Exchanged in These Materials; Y. Kuroda, H. Onishi, T. Mori, Y. Yoshikawa, R. Kumashiro, M. Nagao and H. Koboyashi, <i>J. Phys. Chem. B</i>, <b>106</b>, 8976-8987 (2002).
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û0 Prominent Redox Feature of Copper Ion Exchanged in ZSM-5-type Zeolite; Y. Kuroda, R. Kumashiro and M. Nagao, <i>Appl. Surf. Sci.</i>, <b>196</b>, 408-422 (2002).
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û0 Synthesis of Olivine-type Co<sub>1.6</sub>SiO<sub>4</sub> at Low Temperature; H. Taguchi, Y. Takeda and H. Shibahara, <i>Mater. Lett.</i>, <b>52</b>, 412-416 (2002).
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û0 Electrical Properties and Spin State of Co<sup>3+</sup> Ion in (Nd<sub>1-x</sub>Gd<sub>x</sub>)CoO<sub>3</sub>; H. Taguchi, <i>Physica B</i>, <b>311</b>, 298-304 (2002).
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û0 A more Efficient Copper-ion-exchanged ZSM-5 Zeolite for N<sub>2</sub> Adsorption at Room Temperature: Ion-exchange in an Aqueous Solution of Cu(CH<sub>3</sub>COO)<sub>2</sub>; Y. Kuroda, R. Kumashiro, A. Itadani, M. Nagao, and H. Kobayashi, <i>Phys. Chem. Chem. Phys.</i>, <b>3</b>, 1383-1390 (2001).
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û0 Why Copper Ion-exchanged ZSM-5-type Zeolite Is so Active for CO Adsorption?: Comparison with Adsorption Properties of Silver Ion-exchanged ZSM-5; Y. Kuroda, R. Kumashiro, H. Onishi, T. Mori, H. Kobayashi, Y. Yoshikawa, and M. Nagao, <i>Studies in Surface Science and Catalysis</i>, <b>132</b>, 689-694 (2001).
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û0 A Comprehensive Study of Surface State of MCM-41 Having Good Surface Crystallinity and Its Reactivity to Water Vapor; T. Mori, Y. Kuroda, Y. Yoshikawa, M. Nagao, and S. Kittaka,<i> Studies in Surface Science and Catalysis</i>, <b>132</b>, 801-804 (2001).
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û0 Analysis of Bonding Nature Being Operative in the M(Li, Na, K) Ion-exchanged Zeolite-CO Adsorption Systems; R. Kumashiro, Y. Kuroda, H. Kobayashi, and M. Nagao, <i>Studies in Surface Science and Catalysis</i>, <b>132</b>, 861-864 (2001).
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û0 Metal-insulator Transition in Orthorhombic Perovskite-type Ca(Mn<sub>1-x</sub>Nb<sub>x</sub>)O<sub>3</sub>; H. Taguchi, <i>Physica B</i>, <b>304</b>, 38-44 (2001).
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û0 Electrical Property of K<sub>2</sub>NiF<sub>4</sub>-type Ca<sub>2</sub>(Mn<sub>1-x</sub>Nb<sub>x</sub>)O<sub>4</sub>; H. Taguchi, <i>Mater. Res. Bull.</i>, <b>36</b>, 1361-1367 (2001).
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û0 Specific Adsorption Behavior of Water on a Y<sub>2</sub>O<sub>3</sub> Surface; Y. Kuroda, H. Hamano, T. Mori, Y. Yoshikawa, and M. Nagao,<i> Langmuir</i>,<b> 16</b>, 6937-6947 (2000).
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û0 N<sub>2</sub>O Decomposition over (Mg<sub>6-x</sub>A<sub>x</sub>)MnO<sub>8</sub> (A = Li, Al); K. Tabata, T. Karasuda, E. Suzuki and H. Taguchi, <i>J. Mater. Sci.</i>, <b>35</b>, 4031-4037 (2000).
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û0 New Analysis of Oxidation State and Coordination Environment of Copper Ion-exchanged in ZSM-5 Zeolite; R. Kumashiro, Y. Kuroda, and M. Nagao, <i>J. Phys. Chem. B</i>, <b>103</b>, 89-96 (1999).
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û0 Characterization of Active Sites on Copper Ion-exchanged ZSM-5-type Zeolite for NO Decomposition Reaction; Y. Kuroda, R. Kumashiro, T. Yoshimoto, and M. Nagao, <i>Phys. Chem. Chem. Phys.</i>, <b>1</b>, 649-656 (1999).
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û0 Characterization of Specific N<sub>2</sub>-adsorption Site Existing on CuZSM-5 Type Zeolite: Effect of Ion-exchange Level on Adsorption Properties; Y. Kuroda, Y. Yoshikawa, S. Emura, R. Kumashiro, and M. Nagao, <i>J. Phys. Chem. B</i>, <b>103</b>, 2155-2164 (1999).
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û0 What Are the Important Factors Determining the State of Copper Ion on Various Supports?   Analysis Using Spectroscopic Methods and Adsorption Calorimetry; Y. Kuroda, T. Mori, Y. Yoshikawa, S. Kittaka, R. Kumashiro, and M. Nagao, <i>Phys. Chem. Chem. Phys.</i>, <b>1</b>, 3807-3816 (1999).
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û0 Electrical Properties of Perovskite-type La(Cr<sub>1-x</sub>Mn<sub>x</sub>)O<sub>3+d</sub>; H. Taguchi, S. Matsu-ura, M. Nagao, and H. Kido, <i>Physica B</i>, <b>270</b>, 325-331 (1999).
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û0 Effect of Co<sup>3+</sup> Ion on Metal-insulator Transition in (La<sub>0.1</sub>Ca<sub>0.9</sub>)(Mn<sub>1-x</sub>Co<sub>x</sub>)O<sub>3</sub>; H. Taguchi, Mater. <i>Res. Soc. Symp. Proc.</i>, <b>547</b>, 33-37 (1999).
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û0 Crystal Structure and Magnetic Properties of (Ni<sub>6-x</sub>Cu<sub>x</sub>)MnO<sub>8</sub>; H. Taguchi, A. Ohta, and M. Nagao, <i>J. Solid State Chem.</i>, <b>135</b>, 322-324 (1998).
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û0 Relationship between Angles for Mn-O-Mn and Electrical Properties of Orthorhombic Perovskite-type (Ca<sub>1-x</sub>Sr<sub>x</sub>)MnO<sub>3</sub>ÿH. Taguchi, M. Sonoda, and M. Nagao, <i>J. Solid State Chem.</i>, <b>137</b>, 82-86 (1998).
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û0 Effect of Ge<sup>4+</sup> Ion on Electrical Properties of (La<sub>0.1</sub>Ca<sub>0.9</sub>)(Mn<sub>1-x</sub>Ge<sub>x</sub>)MnO<sub>3</sub>; H. Taguchi, M. Sonoda, and M. Nagao, <i>J. Solid State Chem.</i>, <b>140</b>, 431-434 (1998).
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û0 Electrical Properties of Functionally Graded Perovskite-type (La, Ca)MnO<sub>3</sub>; H. Taguchi,  <i>phys. stat. sol. (a)</i>, <b>170</b>, 113-117 (1998).
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û0 Relationship between Crystal Structure and Electrical Properties of Murdochite-type Ni<sub>6+2x</sub>Mn<sub>1-x</sub>O<sub>8</sub>; H. Taguchi, <i>Solid State Comm.</i>, <b>108</b>, 635-639 (1998).
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û0 Characterization of Active Sites on Copper Ion-exchanged Mordenite for Dinitrogen Adsorption by Using CO as a Probe Molecule; Y. Kroda, H. Maeda, Y. Yoshikawa, R. Kumashiro, and M. Nagao, <i>J. Phys. Chem. B</i>,<b>101</b>,1312-1316(1997).
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û0 Synthesis of LaMnO<sub>3+´</sub> by Firing Gels Using Citric Acid; H. Taguchi, S. Matsuura, M. Nagao, T. Choso, and K.  Tabata,<i> J. Solid State Chem.</i>, <b>129</b>, 60-65 (1997).
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û0 Stabilization of Copper Metal Clusters in Mordenite Nanopores: Water Treatment of  Evacuated Copper Ion-exchanged Mordenite at 300 K; Y. Kuroda, Y. Yoshikawa, S. Konno, H. Maeda, Y. Kubozono, H. Hamano, R. Kumashiro, and M. Nagao, <i>J. Chem. Soc., Faraday Trans.</i>, <b>93</b>, 2125-2130 (1997).
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û0 Specific Feature of Dielectric Behavior of Water Adsorbed on Ag<sub>2</sub>O Surface; Y. Kuroda,  T. Watanabe, Y. Yoshikawa, R. Kumashiro, H. Hamano, and M. Nagao, <i>Langmuir</i>,<b>13</b>, 3823-3826 (1997).
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û0 Analysis of Active Sites on Copper Ion-exchanged ZSM-5 for CO Adsorption through IR and Adsorption-heat Measurements; Y. Kuroda, Y. Yoshikawa, R. Kumashiro, and M. Nagao,<i> J. Phys. Chem. B</i>, <b>101</b>, 6497-6503 (1997).
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û0 Relationship between Crystal Structure and Electrical Properties of Nd(Cr<sub>1-x</sub>Fe<sub>x</sub>)O<sub>3</sub>; H. Taguchi, <i>J. Solid State Chem.</i>, <b>131</b>, 108-114 (1997).
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û0 Effect of Spin State of Ni<sup>3+</sup> ions on Electrical Properties of Nd(Cr<sub>1-x</sub>Ni<sub>x</sub>)O<sub>3</sub>; H. Taguchi, <i>J. Solid State Chem.</i>, <b>134</b>, 382-387 (1997).
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û0 Development of a Site-selective Copper-ion-exchanging Method for HZSM-5 by Vapourization of a Hexafluoroacetylacetonato-copper Complex; Y. Kuroda, K. Yagi, Y. Yoshikawa, R. Kumashiro, and M. Nagao, <i>J. Chem. Soc., Chem. Commun.</i>, <b>1997</b>, 2241-2242.
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û0 Synthesis of Olivine-type Co<sub>2</sub>SiO<sub>4</sub> Using Sol-gel Process; H. Taguchi, K. Moriya, and M. Nagao, <i>Rep. Res. Lab. Surface Sci., Okayama Univ.</i>, <b>8</b>, 17-21 (1997).
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