Member

   
    Dr. Shinji IWAMOTO

Associate Professor, Division of Molecular Science,

Graduate School of Science and Technology, Gunma University

 

Born in 1965, Aichi, Japan

1984 Graduated from Ichinomiya High School

1984–1988 Undergraduate, Kyoto University

1988–1990 Mater’s course, Kyoto University

1990–1993 Doctoral course with Professor Tomoyuki Inui, Kyoto University

1993–2008 Assistant Professor, Kyoto University

19961997 Researcher in École Nationale Supérieure de Chimie de Mulhouse (France)

2008–Present Associate Professor, Gunma University

 

Publications

100.Synthesis of thermally stable nanocrystalline phosphorus-modified titanium(IV) dioxides with rutile structure, Yousuke Hayashi,Shohei Nakamura, Mayu Takagishi, and Shinji Iwamoto
Chemistry Letters
, 46, 307309, (2017)

99.Achievement of over 1.4 V photovoltage in a dye-sensitized solar cell by the applicationof a silyl-anchor coumarin dye, kenji Kakiage, Hiroyuki Osada, Yohei Aoyama, Toru Yano, Keiji Oya, Shinji Iwamoto, Jun-ichi Fujisawa, and Minoru Hanaya
Scientific Reports, 6, 3588835893(2016);doi:10.1038/srep35888

98. Evaluation of the water-treatment ability of silica-doped titanium dioxide-coated glass plates using a cationic coupling reagent based on a flow analytical system

      Tsuyoshi Sugita, Masanobu Mori, Akinori Mase, Shin-nosuke Noguchi, Toru Tokutome, Kengo Fujii, Chisato Hara, Kenji Katayama, Shinji Iwamoto, and Hideyuki Itabashi

      Anal. Sci., 31, pp.15–21, (2015).

 

97.Nitrification of Nb-modified titanias prepared by the solvothermal method and their photocatalytic activities under visible-light irradiation

      Shinnosuke Noguchi, Toru Tokutome and Shinji Iwamoto

      Key Engineering Materials, 596, pp.43–47 (2014).

 

96. Fabrication of a dye-sensitized solar cell containing a Mg-doped TiO2 electrode and a Br3-/Br- redox mediator with a high open-circuit photovoltage of 1.21 V

      Kenji Kakiage, Toru Tokutome, Shinji Iwamoto, Toru Kyomen and Minoru Hanaya

      Chem. Commun., 49, pp.179–180 (2013).

 

95  Study of vanadium-modified N/Si co-doped TiO2 in aqueous solution and its photocatalytic activity

      Akinori Mase, Tsuyoshi Sugita, Masanobu Mori, Shinji Iwamoto, Toru Tokutome, Kenji Katayama, Hideyuki Itabashi 

      Chemical Engineering Journal, 225, pp.440–446 (2013).

 

94.Effect of supports on Pd–Cu bimetallic catalysts for nitrate and nitrite reduction in water

       K. Wada, T. Hirata, S. Hosokawa, S. Iwamoto, M. Inoue

      Catal. Today, 185, pp.81–87 (2012).

 

93. Synthesis of highly effective CeOx–MnOy–BaO catalysts for direct NO decomposition

      W.-J. Hong, M. Ueda, S. Iwamoto, S. Hosokawa, K. Wada, M. Inoue

     Catal. Lett., 142, pp.32–41 (2012).

 

92  Synthesis of CeO2ZrO2 solid solution by glycothermal method and its oxygen release capacity

       S. Hosokawa, S. Imamura, S. Iwamoto, M. Inoue

       J. Euro. Ceram Soc., 31, pp.2463–2470 (2011).

 

91. Effect of Fe content on physical properties of BaO–CeOx–FeOy catalysts for direct NO decomposition

      W.-J. Hong, M. Ueda, S. Iwamoto, S. Hosokawa, K. Wada, H. Kanai, H. Deguchi, M. Inoue

      Appl. Catal. B: Environmental, 106, pp.142–148 (2011).

 

90. Direct NO decomposition over a Ce–Mn mixed oxide modified with alkali and alkaline earth species and CO2-TPD behavior of the catalysts

      W.-J. Hong, S. Iwamoto, M. Inoue

      Catal. Today, 164, pp.489–494 (2011).

 

89. Effect of Mn content on physical properties of CeOx–MnOy support and BaO–CeOx–MnOy catalysts for direct NO decomposition

      W.-J. Hong, S. Iwamoto, S. Hosokawa, K. Wada, H. Kanai, M. Inoue

      J. Catal., 277, pp.208–216 (2011).

 

88. Direct decomposition of NO on Ba catalysts supported on Ce-Fe mixed oxides

      W.-J. Hong, S. Iwamoto, M. Inoue

      Catal. Lett., 135, pp.190196 (2010).

 

87. Surface and pore structure of alumina derived from xerogel/aerogel

      S.-W. Kim, S. Iwamoto, M. Inoue

      J. Porous Mater., 17, pp.377385 (2010).

 

86. Novel synthesis method of alumina having a large pore-volume,

      S.-W. Kim, S. Iwamoto, M. Inoue

      Topics in Catal., 53, pp.535542 (2010).

 

85. Characterization of sulfated zirconia prepared using reference catalysts and application to several model reactions

      H. Matsuhashi, H. Nakamura, T. Ishihara, S. Iwamoto, Y. Kamiya, J. Kobayashi, Y. Kubota, T. Yamada, T. Tatsuda, K. Matsushita, K. Nakai, H. Nishiguchi, M. Ogura, N. Okazaki, S. Sato, K. Shimizu, T. Shishido, S. Yamazoe, T. Takeguchi, K. Tomishige, H. Yamashita, M. Niwa, N. Katada

      Appl. Catal. A: Genaral, 360, pp.8997 (2009).

 

84. Synthesis of alkali-metal cobalt kambaldaite by precipitation method

      C. H. Ohnishi, K. Asano, H.-J. Jeon, S. Hosokawa, S. Iwamoto, M. Inoue

      Polyhedron, 28, pp.12951300 (2009).

 

83. Characterization of gamma-Ga2O3-Al2O3 Prepared by Solvothermal method and its performance for methane-SCR of NO

      T. Nakatani, T. Watanabe, M. Takahashi, Y. Miyahara, H. Deguchi, S. Iwamoto, H. Kanai, M. Inoue

      J. Phys. Chem. A, 113, 70217029 (2009).

82. Photoluminescence of propylene adsorbed on gamma-Ga2O3-Al2O3 solid solutions in relation to their catalysis for CH4-SCR of NO
T. Masuda, T. Watanabe, Y. Miyahara, S. Iwamoto, H. Kanai, M. Inoue
J. Mol. Catal.A-Chemical
, 307, pp.7176 (2009).

81. Synthesis of rare earth iron-mixed oxide nanoparticles by solvothermal methodsS. Hosokawa, H.-J. Jeon, S. Iwamoto, M. Inoue
J. Am. Ceram. Soc., 92, pp. 28472853 (2009).

80.  Pore structure of aluminas derived from the alkyl derivatives of boehmite S.-W. Kim, S. Iwamoto, M. Inoue
J. Porous Mater., 16, pp.605612 (2009).

79. Solvothermal oxidation of gallium metal

      S.-W. Kim, S. Iwamoto, M. Inoue

      Ceram. Internat., 35, pp.16031609 (2009).

 

78. Selective catalytic reduction of NO with C1-C3 reductants over solvothermally prepared Ga2O3-Al2O3 catalysts: Effects of water vapor and hydrocarbon uptake

      Y. Miyahara, M. Takahashi, T. Masuda, S. Imamura, H. Kanai, S. Iwamoto, T. Watanabe, M. Inoue

      Appl. Catal. B: Environmental, 84, pp.289296 (2008).

 

77. Synthesis of nanocrystalline rare earth oxides by glycothermal method

      S. Hosokawa, S. Iwamoto, M. Inoue

      Mater. Res. Bul., 43, pp.31403148 (2008).

 

76. M. Inoue, K. Asai, Y. Nagayasu, K. Takane, S. Iwamoto, Eriko Yagasaki, Ken-ichi Ishii, Formation of multi-walled carbon nanotubes by Ni-catalyzed decomposition of methane at 600-750 ºC, Diamond and Related Materials, 17, pp.14711475 (2008).

 

75. Decomposition of methane in the presence of carbon dioxide over Ni catalysts

      K. Asai, K. Takane, Y. Nagayasu, S. Iwamoto, E. Yagasaki, M. Inoue

     Chem. Eng. Sci., 63, pp. 50835088 (2008).

 

74. Direct decomposition of nitrous oxide in the presence of oxygen over iridium catalyst supported on alumina

      C. Ohnishi, S. Iwamoto, M. Inoue

      Chem. Eng. Sci., 63, pp. 5075082 (2008). 

 

73. Generation of voids in the alkyl layers of an alkyl derivative of boehmite by heat treatment and adsorption behavior of the voids

      M. Kobayashi, S.-W. Kim, S. Iwamoto, M. Inoue

      J. Phys. Chem. Solids, 69, pp.13671370 (2008).

 

72. Fabrication of dye-sensitized solar cells with open-circuit-voltage of 1 volt

      S. Iwamoto, Y. Sazanami, M. Inoue, T. Inoue, T. Hoshi, K. Shigaki, M. Kaneko, A. Maenosono

      ChemSusChem, 1, pp.401403 (2008).

 

71. Synthesis of nano-hollow-shaped rare earth oxides by glycothermal treatment of rare earth acetate and subsequent calcination

      S. Hosokawa, S. Iwamoto, M. Inoue

      J. Alloys. Compd., 457, pp.510–516 (2008).

 

70. Effects of amount of Si addition and annealing treatment on the photocatalytic activities of N- and Si-co-doped titanias under visible-light irradiation

      H. Ozaki, S. Iwamoto, M. Inoue, Ind. Eng. Chem. Res., 47, pp.22872293 (2008).

 

69. Photocatalytic activities of nanocrystalline Si-modified titania xerogels prepared by the glycothermal method

      H. Ozaki, K. Saito, S. Iwamoto, M. Inoue

      J. Mater. Sci., 43, pp.22862292 (2008).

 

68. Defect structure of rare earth aluminum garnet obtained by the glycothermal method

      S. Hosokawa, S. Iwamoto, M. Inoue

      J. Alloys. Compd., 451, pp.309–313 (2008).

 

67. The synthesis of ZrO2TiO2 solid solution by the various synthetic methods in the region of zirconium higher ratio

      K. Kubo, S. Furukawa, S. Iwamoto, M. Inoue

     J. Mater. Sci., 43, pp.21982205 (2008).

 

66. Synthesis of rare earth borate (REBO3) by glycothermal method

      S. Hosokawa, Y. Tanaka, S. Iwamoto, M. Inoue

      J. Mater. Sci., 43, pp.22762285 (2008).

 

65. Mechanisms for methane decomposition over Ni catalysts at high temperatures

       K. Asai, Y. Nagayasu, K. Takane, S. Iwamoto, E. Yagasaki, K. Ishii, M. Inoue

       J. Jpn. Petrol. Inst., 51, pp.4249 (2008).

 

64.  Solvothermal synthesis of inorganic materials and their performance as catalysts

       S. Iwamoto, M. Inoue

       J. Jpn. Petrol. Inst., 51, pp.143–156 (2008).

 

63. Potassium-doped Co3O4 Catalyst for direct decomposition of N2O

       K. Asano, C. Ohnishi, S. Iwamoto, Y. Shiroya, M. Inoue

       Appl. Catal. B: Environmental, 78, pp.242–249 (2008).

 

62. Marked promotive effect of iron on visible-light-induced photocatalytic activities of nitrogen- and silicon-codoped titanias

       H. Ozaki, S. Iwamoto, M. Inoue

       J. Phys, Chem. C, 111, pp.1706117066 (2007).

 

61. Synthesis of mesoporous needle-shaped ytterbium oxide crystals by solvothermal treatment of ytterbium chloride

       S. Hosokawa, S. Iwamoto, M. Inoue

       J. Am. Ceram. Soc., 90, pp.12151221 (2007).

 

60. S. Iwamoto, H. Ozaki, K. Saito, M. Inoue, Photocatalytic activities of nanocrystalline silica-modified titanias prepared by the glycothermal method, Stud. Surf. Sci. Catal., 172, pp.449–452 (2007).

 

59. Improved visible light induced photocatalytic activities of nitrogen and silicon co-doped titanias by the addition of vanadium oxides

      H. Ozaki, S. Iwamoto, M. Inoue

      Catal. Lett., 113, pp.95–98 (2007).

 

58. Improved visible light responsive photocatalytic activity of N and Si co-doped titanias

      H. Ozaki, S. Iwamoto, M. Inoue

      J. Mater. Sci., 42, pp.4009–4017 (2007).

 

57. Photocatalytic activities of NH3-treated titanias modified with other elements,

      H. Ozaki, N. Fujimoto, S. Iwamoto, M. Inoue

      Appl. Catal., B: Environmental, 70, pp.431–436 (2007).

 

56. Direct decomposition of nitric oxide over Ba catalysts supported on CeO2-based mixed oxides         S. Iwamoto, R. Takahashi, M. Inoue

      Appl. Catal., B: Environmental, 70, pp.146–150 (2007).

 

55. Performance of solvothermally prepared Ga2O3-Al2O3 catalysts for SCR of NO with methane

      M. Takahashi, T. Nakatani, S. Iwamoto, T. Watanabe, M. Inoue

      Appl. Catal., B: Environmental, 70, pp.73–79 (2007).

 

54. Synthesis and activity of the Pt catalyst supported on CNT

      T. Onoe, S. Iwamoto, M. Inoue

      Catal. Commun., 8, pp.701–706 (2007).

 

53. Alkali-doped Co3O4 catalysts for direct decomposition of N2O in the presence of oxygen

      C. Ohnishi, K. Asano, S. Iwamoto, K. Chikama, M. Inoue

      Catal. Today, 120, pp.145150 (2007).

 

52. M. Inoue, Effect of support particle morphology of Ni catalysts on growth of carbon nanotubes by methane decomposition

    A. Nakayama, K. Asai, Y. Nagayasu, S. Iwamoto, E. Yagasaki

      J. Jpn. Petrol. Inst., 49, pp.308314 (2006).

 

51. Preparation of Co3O4 catalysts for direct decomposition of nitrous oxide under industrial conditions

      C. Ohnishi, K. Asano, S. Iwamoto, K. Chikama, M. Inoue

      Stud. Surf. Sci. Catal., 162, pp.737744 (2006).

 

50. Solvothermal reaction of rare-earth metals in 2-methoxyethanol and 2-aminoethanol

      T. Kobayashi, S. Hosokawa, S. Iwamoto, M. Inoue

      J. Am. Ceram. Soc., 89, pp.12051211 (2006).

 

49. Effect of modification of alkali on γ-Ga2O3-Al2O3 mixed oxides prepared by the solvothermal method

      M. Takahashi, T. Nakatani, S. Iwamoto, T. Watanabe, M. Inoue

      J. Physics: Condensed Matter, 18, pp.5745–5757 (2006).

 

48. Y. Nagayasu, K. Asai, A. Nakayama, S. Iwamoto, Eriko Yagasaki, M. Inoue, Effect of carbon dioxide cofeed on decomposition of methane over Ni catalysts, J. Jpn. Petro. Inst., 49, pp.186193 (2006).

 

47. Synthesis of gamma-Ga2O3–Al2O3 solid solution by the glycothermal method

      M. Takahashi, N. Inoue, T. Takeguchi, S. Iwamoto, T. Watanabe, M. Inoue

      J. Am. Ceram. Soc., 89, pp.21582166 (2006).


46. Effect of the composition of spinel type ZnO-Ga2O3-Al2O3 catalysts on the activity for CH4-SCR of NO and optimization of catalysts composition

      M. Takahashi, T. Nakatani, S. Iwamoto, T. Watanabe, M. Inoue

      Ind. Eng. Chem. Res., 45, pp.36783683 (2006).

 

45. Selective catalytic reduction of NO with methane on γ-Ga2O3-Al2O3 solid solutions prepared by the glycothermal method

      M. Takahashi, N. Inoue, T. Nakatani, T. Takeguchi, S. Iwamoto, T. Watanabe, M. Inoue

      Appl. Catal. B: Environmental, 65, pp.142149 (2006).

 

44. Solvothremal treatment of rare earth chloride hydrates

      S. Hsokawa, S. Iwamoto, M. Inoue

      J. Alloys and Compounds, 408, pp.529–532 (2006).

 

43. Properties of the ceria colloidal solution prepared by the solvothermal route from cerium metal

      T. Kobayashi, S. Iwamoto, M. Inoue,

      J. Alloys and Compounds, 408, pp.1149–1152 (2006).


42. Structure of yttrium aluminium garnet obtained by the glycothermal method

      S. Hosokawa, Y. Tanaka, S. Iwamoto, M. Inoue

      Adv. Sci. Tech., 45, pp.691696 (2006).

 

41. Pore structure of alumina derived from the alkyl derivatives of boehmite

      S.-W. Kim, S. Iwamoto, M. Inoue

      Adv. Sci. Tech., 45, pp.21532158 (2006).

40. Synthesis of needle-shaped rare earth oxide by solvothermal treatment of rare earth chloride,S. Hosokawa, S. Iwamoto, M. Inoue,   Proc. Joint 20th AIREAPT-43th-EHPRG conference on Science and Technology of High Pressure, 2005, Karlsruhe, Germany, T13-P057.

 

39. Enhanced visible light sensitivity of nitrogen-doped nanocrystalline Si-modified titania prepared by the glycothermal method

      H. Ozaki, S. Iwamoto, M. Inoue

      Chem. Lett., 34, pp.1082–1083 (2005).

 

38. Influence of catalyst support and reaction gas on decomposition of methane over Ni catalysts
Y. Nagayasu, A. Nakayama, S. Kurasawa, S. Iwamoto, E. Yagasaki, M. Inoue

      J. Jpn. Petrol. Inst., 48, pp.301–307 (2005).


37. XANES and XPS study of silica-modified titanias prpared by the glycothermal method

       Sh. Iwamoto, Se. Iwamoto, M. Inoue, H. Yoshida, T. Tanaka, K. Kagawa

      Chem. Mater., 17, pp.650–655 (2005).

36. Decomposition of nitric oxide over barium loaded catalystsS. Iwamoto, T. Yasuda,
Y. Kouno, M. Inoue , Adv. Sci. Tech., 33, pp.375–380 (2003).

35. Thermal stability of silica-modified titanias prepared by the glycothermal method        S. Iwamoto, M. Inoue, T. Tanaka, H. Yoshida, K. Kagawa , Adv. Sci. Tech., 31, pp.77–84 (2003).

34. Glycothermal reaction of vanadium and molybdenum compounds

        M. Inoue, F. Fujioka, S. Iwamoto

       Adv. Sci. Tech., 31, pp.511–516 (2003).

33. Synthesis of carbon nanotubes by the catalytic decomposition of methane on Ni-based catalysts, S. Kurasawa, S. Iwamoto, M. Inoue , Mol. Cryst. Liq. Cryst., 387, pp.[347]/123–[352]/128 (2002).

32. Direct decomposition of NO over Ba-Co-Ce oxide catalysts, S. Iwamoto, T. Yasuda, M. Inoue , Adv. Tech. Mater. Mater. Proc. J., 4, pp.58–61 (2002).

31. Highly active B2O3-modified Ga2O3-Al2O3 catalyst for SCR of NOx with methane   M. Takahashi, S. Iwamoto, M. Inoue, Adv. Tech. Mater. Mater. Proc. J., 4, pp.76–79 (2002).

30. S. Iwamoto, K. Saito, M. Inoue, K. Kagawa, Preparation of the xerogels of nanocrystalline titanias by the removal of the glycol at the reaction temperature after the glycothermal method and their enhanced photocatalytic activities, Nano Letters, 1, pp.417–421 (2001).  

29. Synthesis of silica-modified titania by the glycothermal method
S. Iwamoto, W. Tanakulrungsank, M. Inoue, K. Kagawa, P. Praserthdam

J. Mater. Sci. Lett., 19, pp.1439–1443 (2000).

28. Thermal stability of silica-modified titania ultrafine particles synthesized by the glycothermal method
Sh. Iwamoto, Se. Iwamoto, M. Inoue, S. Uemura, K. Kagawa, W. Tanakulrungsank, P. Praserthdam Ceramic Trans., 115, pp. 643–654 (2000).

27. DeNOx reaction with methane on the g-Ga2O3-Al2O3 solid solutions prepared by the glycothermal method
M. Inoue, N. Inoue, T. Yasuda, T. Takeguchi, S. Iwamoto
Adv. Sci. Tech., 29, pp.1421–1426 (2000).

26. Extended Insertion of gallium in EMT zeolite structure
S. Iwamoto, T. Inui, Z. Gaberica
Proc. 11th Intern. Zeolite Conf., Baltimore, 1998, III, pp.1871–1876 (1999).

25. Elimination of NO on a Co ion-exchanged Co/Al bimetallosilicate catalyst under excess oxygen condition
K. Kagawa, Y. Ichikawa, S. Iwamoto, T. Inui
Microporous and Mesoporous Materials, 25, pp.15–23 (1998).

24. Broadening of the effective temperature range for NO removal on CoPd-modified H-ZSM-5 catalyst by suppression of CH4 combustion
K. Kagawa, Y. Ichikawa, S. Iwamoto, T. Inui
Catal. Lett., 52, pp.145–149 (1998).

23. Enhancement of NO elimination activity of Co-silicate catalyst by high-temperature calcination in steam-containing air
K. Kagawa, S. Kon, S. Iwamoto, T. Inui
Catal. Lett., 52, pp.139–144 (1998).

22. Redox properties of chromium in MFI-type proton-form chromosilicate and its performance as a catalyst in dehydrogenation of ethylbenzene
H. Nagata, J.-B. Kim, S. Iwamoto, T. Inui
J. Jpn. Petrol. Inst., 41, pp.336–340 (1998).

21. Sharp contrast in thermal stability between MFI-type metallosilicates and metal-ion-exchanged ZSM-5 and their catalytic performances for NO removal
S. Iwamoto, S. Kon, S. Yoshida, T. Inui
Stud. Surf. Sci. Catal., 105B, pp.1587–1592 (1997).

20. Highly effective gasoline synthesis from carbon dioxide
T. Inui, H. Hara, T. Takeguchi, K. Ichino, J.-B. Kim, S. Iwamoto, S.-B. Pu,
Energy Convers. Mgmt., 38, Suppl., pp.S385–S390 (1997).

19. Ultra-rapid synthesis of syngas by the catalytic reforming of methane enhanced by in-situ heat supply through combustion
T. Inui, K. Ichino, I. Matsuoka, T. Takeguchi, S. Iwamoto, S.-B. Pu, S. Nishimoto
Korean J. Chem. Eng., 14, pp.441–444 (1997).  

18. Evidently advantageous features of metallosilicates as the catalysts for elimination of NO in the exhaust gases containing a large excess of O2 and H2O
T. Inui, S. Iwamoto, S. Kon, T. Sakimon, K. Kagawa
Catal. Today, 38, pp.169–174 (1997).

17. On-site supply of active reductants for NO conversion through reforming reactions of hydrocarbons
T. Inui, Shingo Yoshida, K. Saigo, S. Iwamoto
Catal. Today, 35, pp.171–175 (1997).

16. Highly active composite catalysts for reforming of methane into syngas
T. Inui, K. Saigo, K. Ichino, T. Takami, T. Takeguchi, S. Iwamoto, Y. Fujii          Ceramic Trans., 73, pp.39–49 (1997).

15. Selective catalytic reduction of NO under ambient conditions using ammonia as reducing agent and MFI zeolites as catalysts
D. Roberge, A. Raj, S. Kaliaguine, D. Trong On, S. Iwamoto, T. Inui
Appl. Catal., B: Environmental, 10, pp.L237–L243 (1996).

14. Titanium and vanadium silicalites as catalysts for the reduction of NOX,
A. Raj, D. Roberge, S. Kaliaguine, S. Iwamoto, T. Inui
Chem. Commun., pp.531–532 (1996).

13. On the vital roles of zeolitic matrix in catalysts for deNOx reactions under conditions similar to diesel engine exhaust
T. Inui, S. Iwamoto, K. Matsuba, Y. Tanaka, T. Yoshida,
Catal. Today, 26, pp.23–32 (1995).

12. Decomposition of nitric oxide under oxygen excess condition
S. Iwamoto, S. Shimizu, T. Hirabayashi, T. Inui
Trans. Mat. Res. Soc. Jpn., 18A, pp.397–400 (1994).

11. Contribution of acidic properties of metallosilicate catalyst to NO decomposition reaction
S. Iwamoto, S. Shimizu, T. Inui
Stud. Surf. Sci. Catal., 84, pp.1523–1530 (1994).

10. Removal of nitric oxide on metallosilicate catalysts
T. Inui, S. Iwamoto, S. Kojo, T. Hirabayashi
Catal. Today, 22, pp.41–57 (1994).

9.   Performance of a protonated Co-contained silicate catalyst for NO reduction in equivalent conditions to diesel engine exhaust
T. Inui, T. Hirabayashi, S. Iwamoto
Catal. Lett., 27, pp.267–272 (1994).

8.   Environments of iron in Fe-silicates synthesized by the rapid crystallization methodT. Inui, H. Nagata, T. Takeguchi, S. Iwamoto, H. Matsuda, M. Inoue,
J. Catal., 139, pp.482–489 (1993).

7.   Decomposition of NO on metallosilicates under an excess of oxygen and a low concentration of hydrocarbons
T. Inui, S. Iwamoto, S. Shimizu
Proc. 9th Intern. Zeolite Conf. Montreal 1992, II, pp.405–412 (1993).

6.   Decomposition of nitric oxide on metallosilicates under a large excess oxygen condition with coexistence of a low concentration cetane
T. Inui, S. Iwamoto, S. Kojo, T. Yoshida
Catal. Lett., 16, pp.223–229 (1992).

5.   T. Inui, Shin-ich Kojo, M. Shibata, Takashi Yoshida, S. Iwamoto, NO decomposition on Cu-incorporated A-zeolites under the reaction condition of excess oxygen with a small amount of hydrocarbons, Stud. Surf. Sci. Catal., 69, pp.355–364 (1991).

4.   A computer graphic investigation on the epitaxial growth of Ba2YCu3O7-x superconductor films
A. Miyamoto, S. Iwamoto, K. Agusa, T. Inui
J. Spectroscopical Soc. Jpn., 10, pp.481487 (1989).

3.   Computer graphic investigation on the epitaxial growth of high temperature superconductor films
A. Miyamoto, S. Iwamoto, K. Agusa, T. Inui
Proc. 32nd Jpn. Congr. Mater. Res., pp.145152 (1989).

2.   Computer graphic investigations on the mechanism of epitaxial growth of metal oxide on support
A. Miyamoto, S. Iwamoto, K. Agusa, T. Inui
Proc. MRS Int. Mtg. on Adv. Mats., 2, pp.381386 (1989).

1.   Acid-base cooperative catalysis in the side-chain alkylation of toluene with methanol as visualized by the computer graphics
A. Miyamoto, S. Iwamoto, K. Agusa, T. Inui
Proc. Int. Symp. Acid-Base Catal., pp.497504 (1989).