Original Papers
  1. Concentration Profiles in Impregnation of Porous Catalysts: Nickel on Alumina. [J.Catal.,63(1980)35-52]
    M.Komiyama, R.P.Merrill and H.F.Harnsberger
  2. Application of Soft X-Ray Spectroscopy to Catalyst Research: Ni on gamma-Al2O3. [Stud.Surf.Sci.Catal.,7(1981)1472-1473]
    M.Komiyama and R.P.Merrill
  3. Alcohols Formation in CO Hydrogenation over Supported Rhenium. [Chem.Lett.(1981)819-822]
    T.Tsunoda, H.Ogasawara, M.Komiyama, S.Ozawa and Y.Ogino
  4. Catalytic Cracking of Asphalts at Low Temperature. [Fuel,61(1982)542-548]
    M.Komiyama, S.Nojima and Y.Ogino
  5. Carbon Monoxide Hydrogenating Characteristics of Various Catalysts Containing Rhenium. [J. Chem. Soc. Jpn. (1982)305-309] (in Japanese)
    T. Tsunoda, H. Ogasawara, M. Komiyama, S. Ozawa, Y. Ogino, T. Nakamura, M. Osugi
  6. X-Ray Photoelectron Spectroscopic Studies of Unsupported and Supported Rhenium using Argon-ion Bombardment. [J.Chem.Soc., Faraday Trans.2,79(1983)1719-1728]
    M.Komiyama, Y.Ogino, Y.Akai and M.Goto
  7. On the Penetration Rate and the Role of Acids in the Control of Impregnation Profiles. [Bull.Chem.Soc.Japan,57(1984)1169-1173]
    M.Komiyama and R.P.Merrill
  8. Relations between the Structural Characteristics and Reactivities of Asphalt Fractions. [Collection Colloques et Seminaires, 40(1984)428-432]
    M.Komiyama, S.Nojima and Y.Ogino
  9. A Surface Complex Produced on Supported Rhenium Catalysts during High-Pressure Hydrogenation of Carbon Monoxide. [J.Chem.Soc.,Chem.Commun.,(1984)618-619]
    M.Komiyama, T.Okamoto and Y.Ogino
  10. Intrapellet Metal Crystallite Size Distribution in Impregnated Catalysts: Nickel on Alumina. [J.Chem.Eng.Japan,18(1985)381-382]
    M.Komiyama and R.P.Merrill
  11. Hydrogen Pressure-Induced Reversible Reduction of Metal-Loaded Titania Observed by High-Pressure Infrared Spectroscopy. [Chem.Lett.(1985)823-826]
    M.Komiyama, M.Izumisawa, T.Okamoto and Y.Ogino}
  12. A Novel Method of Examining Carbonaceous Deposits on Spent Catalyst Surfaces. [Carbon,23(1985)613-617]
    M.Komiyama, T.Tsunoda and Y.Ogino
  13. Carbon Monoxide Hydrogenation over Rhenium-Iron Oxide Catalysts and their Characterization by Soft X-ray Spectroscopy. [Ind.Eng.Chem.,Prod.Res.Develop.,25(1986)15-18]
    M.Komiyama, T.Tsunoda and Y.Ogino
  14. Diffusion Coefficients of Indium and Tin in In-Sn Alloys Determined by Auger Electron Spectroscopy using Xenon Ion Bombardment. [J.Mat.Sci.Lett.,5(1986)673-674] M.Komiyama, H.Tsukamoto, T.Matsuda and Y.Ogino
  15. An Electron Spin Resonance Study on the Re/ZrO2 System. [J.Chem.Soc.,Faraday Trans.1,86(1986)1713-1719] T.Komatsu, M.Komiyama, Y.Ogino and M.Iwamoto
  16. Supported Rhenium Subcarbonyl Catalysts for High-pressure CO Hydrogenation. ["Homogeneous and Heterogeneous Catalysis," Yu.Yermakov and V.Likholobov,eds.,VNU Science Press,Utrecht(1986)1041-1050]
    M.Komiyama, J.Sato, K.Yamamoto and Y.Ogino
  17. Surface Compositions of Solid and Liquid Indium-Tin Alloys by Auger Electron Spectroscopy using Ion Bombardment. [J.Solid State Chem.,64(1986)134-140]
    M.Komiyama, H.Tsukamoto and Y.Ogino
  18. Diastereoselective Hydrogen Transfer from Alcohols to Ketones over Liquid Indium. [J.Catal.,104(1987)237-239]
    M.Komiyama, H.Sugawara, Y.Iwamoto and Y.Ogino
  19. Catalytically Active Species on Titania-Supported Rhenium for Hydrogenation of Carbon Monoxide. [Langmuir,3(1987)845-851]
    M.Komiyama, J.Sato, K.Yamamoto and Y.Ogino
  20. Structure and Catalytic Activity of Sb Oxide Highly Dispersed on SnO2 for Propene Oxidation. [J.Catal.,109(1988)423-432]
    T.Ono, T.Yamanaka, Y.Kubokawa and M.Komiyama
  21. Scanning Tunneling Microscopic Images of Noble Metal Fine Particles Supported on Thin Titanium Oxide Film. [Appl.Surface Sci.,33/34(1988)206-211]
    M.Komiyama, J.Kobayashi, Y.Ishigame, S.Morita and N.Mikoshiba
  22. Supported Metal Model Catalyst Surfaces Examined by Scanning Tunneling Microscopy. [J.Microscop.,152(1988)197-203]
    M.Komiyama, S.Morita and N.Mikoshiba
  23. Mechanism of Hydrogen Adsorption-induced Optical Density Changes in Metal-loaded Titania. [Colloid.Surface.,37(1989)125-130]
    M.Komiyama and Y.Ogino
  24. Preparation of Supported Rhenium Carbonyls and their Characterization by IR and XPS Studies. [J.Mol.Catal.,56(1989)78-85]
    M.Komiyama, J.Sato, K.Yamamoto and Y.Ogino
  25. Structure of Platinum Ultrafine Particles in Pt/C Catalyst Observed by Scanning Tunneling Microscopy. [J.Vac.Sci.Technol.A,8(1990)608-609]
    M.Komiyama, J.Kobayashi and S.Morita
  26. Structural and Kinetic Studies in Propene Oxidation over Sb Oxide Dispersed on TiO2. [J.Catal.,127(1991)698-705]
    T.Ono, M.Kiryu, M.Komiyama and R.L.Kuczkowski
  27. Chemical State Analysis of Sn-Sb-O Solid Surfaces by Auger Electron Spectroscopy: Differentiation of Sb(III) and Sb(V). [Bull.Chem.Soc.Jpn,65(1992)2709-2714]
    M.Komiyama, M.Yoshii, Y.Ogino and T.Ono
  28. First STM Observation of Silica and Platinum-on-Silica Model Catalyst Systems. [Chem.Lett.(1992)2301-2302]
    M.Komiyama and M.Kirino
  29. Application of Scanning Tunneling Microscopy to Catalyst Research: Pt/SiO2. [Stud.Surf.Sci.Catal.,75(1993)659-669]
    M.Komiyama and M.Kirino
  30. Scanning Tunneling Microscopic Observations of "Nonconductive" Oxide Surfaces: SiO2 Thin Films Formed on n- and p-Si(100). [Jpn.J.Appl.Phys.,32(1993)2934-2939]
    M. Komiyama, M. Kirino and H. Kurokawa
  31. STM Observation and Its Imaging Mechanism of Alumina and Platinum-on-Alumina Model Catalyst Surfaces. [Chem.Lett.(1994)1421-1424]
    M.Komiyama and H.Kurokawa
  32. Atomic Force Microscopy Images of Natural Zeolite Surfaces Observed under Ambient Conditions. [Jpn.J.Appl.Phys.,33(1994)3761-3763]
    M.Komiyama and T.Yashima
  33. Tunneling Electron-Induced Adsorption of Pyridine on Hydrogen-Terminated Silicon Surface. [J.Vac.Sci.Technol.B,12(1994)1866-1868]
    M.Komiyama and M.Kirino
  34. Construction of Model Supported Metal Catalysts for STM Examinations. [J.Vac.Sci.Technol.B,12(1994)1869-1871]
    M.Komiyama, M.Kirino and H.Kurokawa
  35. Quantum Chemical Approach to the Interpretation of STM Images: MOPAC Calculations on Silica/silicon Interface. [Catal.Today,23(1995)365-370]
    M.Komiyama and Y.Iwashita
  36. Formation of Charge-Reduced Si4+ Species in SiO2 Thin Film by Supported Metal particles -- Possibility of Electronic Metal-Support Interaction in Silica-Supported Metal Catalysts --. [J. Chem. Soc. Jpn. (1995)490-491] (in Japanese)
    T. Shimaguchi and M. Komiyama
  37. Simulation of Atomic Force Microscopy Image Variations along the Surface Normal: Presence of Possible Resolution Limit in the Attractive Force Range. [Jpn.J.Appl.Phys.,34(1995)L789-L792]
    M.Komiyama, K.Tsujimichi, S.Ohkubo, K.Tazawa, M.Kubo and A.Miyamoto
  38. Formation of Two-Dimensional Pseudo-Solid Phase of Pyridine Bases on Zeolite Surfaces. [Scanning,18(1996)244]
    M.Komiyama
  39. Effects of Atomic Arrangement at Tip Apex and Tip-Sample Distance on Atomic Force Microscopy Images: A Simulation Study. [Jpn.J.Appl.Phys.,35(1996)2318-2325]
    M.Komiyama, S.Ohkubo, K.Tazawa, K.Tsujimichi, A.Hirotani, M.Kubo and A.Miyamoto
  40. A Simple Transmission Infrared Cell Made of Swagelok for In Situ IR Spectroscopic Studies of Heterogeneous Catalysis. [Rev.Sci.Instrum.,67(1996)1590-1592]
    M.Komiyama and Y.Obi
  41. Atomic Force Microscopy Images of Liquid-Phase-Adsorbed Pyridine Molecules on Stilbite(010). [Jpn.J.Appl.Phys.,35(1996)3775-3777]
    M.Komiyama and M.Gu
  42. Simulations of the Effects of Tip Apex Geometries on Atomic Force Microscopy Images. [Jpn.J.Appl.Phys.,35(1996)4101-4104]
    M.Komiyama, K.Tazawa, K.Tsujimichi, A.Hirotani, M.Kubo and A.Miyamoto
  43. Atomic Force Microscopy Determination of the Molecular Orientation and Array Structure of a Pyridine Adlayer on Heulandite(010) Adsorbed from its Aqueous Solution. [J.Phys.Chem.,100(1996)15198-15201]
    M.Komiyama, T.Koyama, T.Shimaguchi and M.Gu
  44. Simulation of AFM/LFM by Molecular Dynamics: Role of Lateral Force in Contact-Mode AFM Imaging. [Surf.Sci., 358 (1996) 222-227]
    M.Komiyama, K.Tsujimichi, K.Tazawa, A.Hirotani, H.Yamano, M.Kubo, E.Broclawik and A.Miyamoto
  45. Simulation of Atomic Force Microscopy Image Variations due to Tip Apex Size: Appearance of Half Spots. [Thin Solid Films, 281-282 (1996) 580-583]
    M.Komiyama, K.Tazawa, K.Tsujimichi, A.Hirotani, M.Kubo and A.Miyamoto
  46. Forces of Pt Adatom on Pt(100) Surface by Embedded-Atom Method. [Surf.Sci., 357-358 (1996) 900-904]
    M.Katagiri, M.Kubo, K.Tsujimichi, A.Miyamoto, M.Komiyama, Y.Nozoe, O.Terasaki, Y.S.Lee and B.Vessal
  47. On the Effect of Intrapellet Activity Profiles on the Selectivities in Consecutive Reactions: 1,3-Butadiene Hydrogenation over Pt/Al2O3. [Bull.Chem.Soc.Jpn., 70 (1997) 1009-1013]
    M.Komiyama, K.Ohashi, Y.Morioka and J.Kobayashi
  48. Simulation of Atomic Force Microscopy Images of Cleaved Mica Surfaces. [J.Phys.Chem.B, 101 (1997) 4260-4264]
    K.Tsujimichi, H.Tamura, A.Hirotani, M.Kubo, M.Komiyama and A.Miyamoto
  49. Liquid-phase Adsorption Process of beta-Picoline on Stilbite(010) Examined by Atomic Force Microscopy. [J.Vac.Sci.Technol.B, 15 (1997) 1325-1329]
    M.Komiyama and M.Gu
  50. Adsorption Characteristics of Pyridine Bases on Zeolite(010) Examined by Atomic Force Microscopy (AFM). [Stud.Surf.Sci.Catal., 109 (1997) 185-191]
    M.Komiyama
  51. Atomic Force Microscopy Images of MgO(100) and TiO2(110) under Water and Aqueous Aromatic Molecule Solutions. [Appl.Surf.Sci., 120 (1997) 125-128]
    M.Komiyama and M.Gu
  52. Ambient Atomic Force Microscopy Images of Natural Zeolite and their Interpretation by Molecular Simulations. [Appl.Surf.Sci., 121/122 (1997) 543-547]
    M.Komiyama, K.Tsujimichi, Y.Oumi, M.Kubo and A.Miyamoto
  53. Adlayer Formation of DNA Base Cytosine over Natural Zeolite Heulandite(010) Surface by AFM. [Appl.Phys.A, 66 (1998) S635-S637]
    M.Komiyama, M.Gu, T.Shimaguchi, H.-M.Wu and T.Okada
  54. A Study of Local Processing on Solid Surfaces with Atomic Force Microscopy. [Jpn.J.Appl.Phys., 37 (1998) 3816-3819]
    H.-M.Wu and M.Komiyama
  55. Self-Assembly of Aromatic Molecules over Zeolite (010) Surfaces: An AFM and Semi-empirical Study. [Supramolec.Sci., 5 (1998) 635-637]
    M.Komiyama,T.Shimaguchi, M.Gu and H.-M.Wu
  56. Adlayer Structures of Pyridine Base Molecules over Zeolite (010) Surfaces: an Semiempirical Study based on AFM Observations. [Surf.Interface Anal., 27 (1999) 332-335]
    M.Komiyama, T.Shimaguchi, M.Kobayashi, H.-M.Wu and T.Okada
  57. Geometry and Energetics of Pyridine Base Adsorption at Water-Zeolite Interfaces: A Simulation Study. [J.Phys.Chem.B, 103 (1999) 10651-10656]
    M.Komiyama and M.Kobayashi
  58. High-resolution Imaging of Organic Monolayers using Noncontact AFM. [Appl.Surf.Sci., 157 (2000) 244-250]
    T.Uchihashi, T.Ishida, M.Komiyama, M.Ashino, Y.Sugawara, W.Mizutani, K.Yokoyama, S.Morita, H.Tokumoto and M.Ishikawa
  59. Study of Catalyst Preparation Processes by Atomic Force Microscopy (AFM): Adsorption of a Pt Complex on a Zeolite Surface. [Stud.Surf.Sci.Catal., 130 (2000) 3173-3176]
    M.Komiyama
  60. Recent Applications of Atomic Force Microscopy to the Study of Pyridine-Base Mole-cules Adsorbed on the (010) Surfaces of Heulandite and Stilbite Crystals. ["Natural Zeolites for the Third Millennium," C.Colella and F.A.Mumpton, eds., De Frede Editore, Naples, (2000) 315-320]
    M.Komiyama and T.Shimaguchi
  61. Determination of Extra-framework Cation Positions and Their Occupancies in Heulandite(010) by Atomic Force Microscopy. [J.Phys.Chem. B, 105 (2001) 4680]
    M.Komiyama, Minming Gu and Hai-Ming Wu
  62. Molecular Orbital Interpretation of Thymine/graphite NC-AFM Images. [Surf. Interface Anal., 29 (2001) 53-56]
    M. Komiyama, T. Uchihashi, Y. Sugawara and S. Morita
  63. Formation of Charge-Reduced Si4+ Species in Silica Thin Film due to the Contact with Ultrafine Metal Particles. [Surf. Interface Anal., 29 (2001) 189-192]
    M. Komiyama and T. Shimaguchi
  64. TiO2(110) Surface Preparation by UV Light Irradiation for STM Observations. [Jpn. J. Appl. Phys., 40 (2001) 4281-4284]
    D. Yin and M. Komiyama
  65. Various Phases on Natural Stilbite (010) Surface Observed by Atomic Force Microscopy under Aqueous Conditions. [Jpn. J. Appl. Phys., 40 (2001) 4285-4288]
    N. Gu and M. Komiyama
  66. Monte Carlo Simulation of Pyridine Base Adsorption on Heulandite (010). [Appl. Surf. Sci., 188 (2002) 377-380]
    Y. Yokoi, G. Yelken, Y. Oumi, Y. Kobayashi, M. Kubo, A. Miyamoto and M. Komiyama
  67. Apparent Local Structural Change Caused by Ultraviolet Light on a TiO2 Surface Observed by Scanning Tunneling Microscopy. [Jpn. J. Appl. Phys., 41 (2002) 4936-4938]
    M. Komiyama, Y.-J. Li and D. Yin
  68. Electronic Structure Change on TiO2 Surface due to UV Light Irradiation. [Stud. Surf. Sci. Catal., 145 (2003) 153-156]
    M. Komiyama, D. Yin and Y.-J. Li
  69. Crater Structures on a Molybdenite Basal Plane observed by Ultra-high Vacuum Scanning Tunneling Microscopy and its Implication to Hydrotrea. [J.Molec.Catal.A, 215 (2004) 143-147]
    M. Komiyama, K. Kiyohara, Y.-J. Li, T. Fujikawa, T. Ebihara, T. Kubota and Y. Okamoto
  70. Photoresponse of Titanium Dioxide Surface on Atomic Scale: Site for Visible Light Absorption. [Jpn.J.Appl.Phys., 43 (2004) 4584-4587]
    M. Komiyama and Y.-J. Li
  71. Local Structural Change caused by Light Irradiation on TiO2 (110) Surface observed by Scanning Tunneling Microscopy. [Appl. Surf. Sci., 237 (2004) 374-379]
    Y.-J. Li, T. Matsumoto, G. Ning and M. Komiyama
  72. In Situ Observations of Tetraamineplatinum (II) Hydroxide Adsorption from Its Aqueous Solu-tion on Heulandite (010) Surface by Atomic Force Microscopy. [Appl. Surf. Sci., 237, (2004) 503-508]]
    M. Komiyama and N. Gu
  73. Photoresponse of Surface Oxygen Defects on TiO2(1 1 0). [Appl.Surf.Sci., 244 (2005) 550-553]
    M. Komiyama and Y.-J. Li
  74. Kelvin Probe Force Microscopy Study of Conjugated Polymer/Fullerene Organic Solar Cells. [Jpn.J.Appl.Phys., 44 (2005) 5370-5373]
    Th. Glatzel, H. Hoppe, M. Ch. Lux-Steiner, N. S. Sariciftci and M. Komiyama
  75. Cobalt Chemical Vapor Deposition Process on Molybdenite Basal Plane Observed by Ultrahigh-Vacuum Scanning Tunneling Microscopy. [Jpn.J.Appl.Phys., 44 (2005) 5455-5458]
    M. Komiyama K. Kiyohara, E. Yoda, T. Kubota and Y. Okamoto
  76. Biogas as a Reproducible Energy Source: Its Steam Reforming for Electricity Generation and for Farm Machine Fuel. [“Greenhouse Gases and Animal Agriculture: An Update” C. R. Solvia, J. Takahashi and M. Kreuzer, eds., Elsevier, Amsterdam (2006) 234-237]
    M. Komiyama, T. Misonou, S. Takeuchi, K. Umetsu and J. Takahashi
  77. Anaerobic Co-digestion of Dairy Manure and Sugar Beets. [“Greenhouse Gases and Animal Agriculture: An Update” C. R. Solvia, J. Takahashi and M. Kreuzer, eds., Elsevier, Amsterdam (2006) 307-310]
    K. Umetsu, S. Yamazaki, T. Kishimoto, J. Takahashi, Y. Shibata, C. Zhang, T. Misaki, O. Hamamoto, I. Ihara and M. Komiyama
  78. An Electronic "Edge" State on a Molybdenite Basal Plane Observed by Ultrahigh-vacuum Scanning Tunneling Microscopy (STM) and Spectroscopy (STS). [Jpn.J.Appl.Phys., 46 (2007) 5964-5969]
    M. Komiyama H. Tomita and E. Yoda
  79. Observation from Scanning Tunneling Microscopy of a Striped Phase for Octanethiol Adsorbed on Au(111) from Solution. [Langmuir, 24 (2008) 9937-9940]
    M. Sharma, M. Komiyama and J. R. Engstrom
  80. Effect of Polymer Dispersion on the Rheology and Morphology of Polymer Modified Bituminous Blend. [RILEM Bookseries, 4 (2012) 859-868]
    Ibrahim Kamaruddin, Noor Zainab Habib, Isa Mohd Tan, Masaharu Komiyama and Madzlan Napiah
  81. Catalytic Supercritical Water Gasification of Proteinaceous Biomass: Catalyst Performances in Gasification of Ethanol Fermentation Stillage with Batch and Flow Reactors. [Chem. Eng. Sci., 109 (2014) 197-203]
    Hung Thanh Nguyen, Eisuke Yoda and Masaharu Komiyama
  82. Raney-Nickel Catalyst Deactivation in Supercritical Water Gasification of Ethanol Fermentation Stillage and its Mitigation. [Top. Catal., 57 (2014) 1078-1084]
    Hung Thanh Nguyen, Haimeng Lu, Eiichiro Kobayashi, Takahiro Ishikawa and Masaharu Komiyama
  83. Facile and Green Decomposition of Dioxane with Catalytic Supercritical Water Gasification. [Chem. Lett., 2014 (2014) in press]
    Takahiro Hara, Hung Thanh Nguyen and Masaharu Komiyama
Review Papers
  1. 含浸プロフィールの制御. [化学工学,46(1982)401-405]
    M. Komiyama
  2. 固体表面の化学状態に対するイオン衝撃の影響. [アイオニクス,No.117(1985)1-6]
    M. Komiyama
  3. Design and Preparation of Impregnated Catalysts. [Catal.Rev.-Sci.Eng.,27(1985)341-372]
    M. Komiyama
  4. 触媒研究のためのデータ処理入門−赤外分光光度計のオンライン制御. [触媒,29(1987)383-388]
    K. Omata, J. Muramatsu and M. Komiyama
  5. 走査型トンネル分光法(STS)による表面吸着種の振動スペクトル. [触媒,29(1987)668-669]
    M. Komiyama
  6. 走査型トンネル顕微鏡(STM)の固体触媒表面研究への応用. [化学と工業,40(1987)705-706]
    M. Komiyama
  7. 走査型トンネル顕微鏡/分光法(STM/STS)の触媒表面研究への応用. [表面,26(1988)384-391]
    M. Komiyama
  8. STMによる固体表面のナノ加工. [表面科学,10(1989)918-924]
    M. Komiyama
  9. STM/SXMの触媒化学への応用. [化学,45(1990)679-680]
    M. Komiyama
  10. STMを用いた超微細表面加工. [化学,45(1990)681]
    M. Komiyama
  11. 酸化物表面のSXM観察. [表面科学,12(1991)491-495]
    M. Komiyama
  12. 超高真空中および大気中で使用可能な走査型トンネル顕微鏡/分光装置(STM/STS)の試作とその学生実験および研究実験への応用. [山梨大学教育学部研究報告,42(2)(1992)39-44]
    M. Komiyama
  13. 走査型トンネル顕微鏡(STM)による触媒表面の研究 − 最近の話題から. [粉体工学会誌,29(1992)199-205]
    M. Komiyama
  14. 走査プローブ顕微鏡による固体触媒の表面形状. [触媒,34(1992)306-308]
    M. Komiyama
  15. 超微粒子材料の直接観察−走査プローブ顕微鏡を中心として. [粉体と工業,25(6)(1993)63-70]
    M. Komiyama
  16. 固体触媒の表面構造. [日本結晶学会誌,35(1993)137-139]
    M. Komiyama
  17. 触媒金属−担体間相互作用のSTMによる研究. [化学工学,57(1993)375]
    M. Komiyama
  18. 走査トンネル顕微鏡・原子間力顕微鏡による表面原子像. [化学工業,44(1993)622-627]
    M. Komiyama
  19. AFMによるゼオライト表面の観察と構造解析. [ゼオライト,10(1993)201-206]
    M. Komiyama
  20. 化学の究極 − 原子・分子を自在にあやつる. [化学,49(1994)8-9]
    M. Komiyama
  21. 走査型トンネル顕微鏡(STM)による多結晶および超微粒子白金の表面形状と障壁高さ分布. [山梨大学教育学部研究報告, 44(2) (1994) 25-28]
    M. Komiyama
  22. STMで広がる世界-PCとEWSを学内LANで結んだSTM制御. [触媒, 36 (1994) 278-282]
    Y. Abe and M. Komiyama
  23. 走査プローブ顕微鏡による吸着分子像の観察. [色材協会誌, 69 (1996) 867-876]
    M. Komiyama
  24. 原子間力顕微鏡(AFM)によるゼオライト研究:結晶成長、表面原子像および吸着分子配列. [ペトロテック, 20 (1997) 52-57]
    M. Komiyama
  25. AFM技術の幕開け. [触媒,39(1997)604-611]
    M. Komiyama
  26. 原子間力顕微鏡(AFM)で化学結合が見える!? [化学, 54(9) (1999) 68-69]
    M. Komiyama
  27. ゼオライト(010)表面吸着分子構造のAFM観察.[表面科学, 21 (2000) 576-583]]
    M. Komiyama
  28. 21世紀に向けての触媒研究.[触媒, 42 (2000) 546-551]
    永井正敏,尾中篤,M. Komiyama,堂免一成,藤田照典
  29. 触媒表面のプローブ顕微鏡による観察. [表面技術, 53 (2002) 906-908]
    M. Komiyama
  30. STM/AFMによる触媒表面解析.[ペトロテック, 26 (2003) 478-483]
    M. Komiyama
  31. 光励起STMによるTiO2表面光吸収サイトの観察. [触媒, 46 (2004) 570-575]
    M. Komiyama
  32. 米国国家ナノテクノロジー基盤ネットワーク(NNIN)とコーネルナノスケール科学技術施設(CNF).[表面科学,27 (2006) 675]
    M. Komiyama
  33. 二硫化モリブデン超微粒子電子状態の粒子径依存性.[表面科学,29 (2008) 642]
    M. Komiyama
  34. 工業触媒のパラダイムシフト.[表面科学,30 (2009) 67]
    小宮山政晴
  35. 走査プローブ顕微鏡によるその場触媒表面解析.[ペトロテック,32 (2009) 362-365]
    M. Komiyama
  36. 石油資本によるバイオ燃料研究.[表面科学,31 (2010) 313]
    M. Komiyama
Books
  1. "C1 ケミストリー" 触媒学会編 (分担執筆),講談社(1984).
  2. "触媒講座別巻 触媒実験ハンドブック" 触媒学会編 (分担執筆), 講談社(1986).
  3. "実用化学辞典" 越後谷悦郎監訳(分担翻訳),朝倉書店 (1986).
  4. "Handbook of Heat and Mass Transfer, Vol.4: Advances in Reactor Design and Combustion Sciences," N.P.Cheremisinoff Ed., (co-author),Gulf Pub., New York(1990).
  5. "触媒技術の動向と展望1994" 触媒学会編 (分担執筆),触媒学会 (1994).
  6. "原子・分子で理解する固体表面現象" 化学工学会監修 (分担執筆),培風館 (1996).
  7. "触媒の事典" 御園生,小野,諸岡監修(分担執筆),朝倉書店 (2000).
  8. "界面ハンドブック" 岩澤,梅沢,澤田,辻井監修(分担執筆),IPC (2001).
  9. "表面・界面工学大系” 本田監修(分担執筆),テクノシステム (2005).
Invited Lectures
  1. [Invited Lecture] 触媒表面研究へのSTMの応用. [日本化学会関東支部講演会 "STMは化学の研究にどこまで有効か"(東京,1991年5月)]
  2. [Keynote Lecture] 触媒表面研究へのSTM(走査型トンネル顕微鏡)の応用. [粉体工学会第27回夏季シンポジウム(静岡,1991年7月)]
  3. [Invited Lecture] 酸化物表面のSXM観察. [色材協会関東支部第7回表面・局所分析講座 (東京,1992年4月)]
  4. [Invited Lecture] 微粒子材料の直接観察 − 走査型トンネル顕微鏡を中心として. [日本粉体工業技術協会'92粉体技術会議 (東京,1992年10月)]
  5. [Invited Lecture] 担持金属触媒のSTM観察. [日本化学会第65春季年会 (東京, 1993年3月)]
  6. [Invited Lecture] 走査型トンネル顕微鏡による固体触媒の表面構造観察と構造制御の可能性. [触媒学会第4回触媒の機能と設計に関するシンポジウム (京都, 1993年11月)]
  7. [Invited Lecture] AFM/LFM像の分子シミュレーションとシリケート表面微細構造解析への応用. [表面科学会第14回表面科学研究会 (東京, 1996年9月)]
  8. [Invited Lecture] 原子間力顕微鏡(AFM)によるゼオライト表面と吸着分子の観察. [ミクロ空間反応場を利用する分子機能材料の設計と触媒機能シンポジウム (東京, 1997年1月)]
  9. [Invited Lecture] 液相吸着分子のAFM観察. [触媒学会精密表面材料研究会シンポジウム (東京, 1997年6月)]
  10. [Invited Lecture] ゼオライト(010)表面におけるピリジン塩基分子の液相吸着構造-AFMによる研究. [表面科学会中部支部研究会 ``表面ナノ構造の計測と物性" (浜松, 1997年11月)]
  11. [Invited Paper] Self Assembly of Aromatic Molecules over Zeolite (010) Surfaces: An AFM and Semiempirical Study. [The 7th International Conference on Molecular Electronics and Biocomputing (Nanjing, November, 1997)]
  12. [Invited Lecture] 原子間力顕微鏡(AFM)の触媒化学への応用. [触媒学会第19回触媒夏の研修会 (鬼怒川, 1998年8月)]
  13. [Invited Lecture] 液相吸着系のAFM観察. [日本電子顕微鏡学会第43回シンポジウム (千葉, 1998年10月)]
  14. [Invited Lecture] ゼオライト表面での分子吸着構造のAFM観察. [日本化学会第76春季年会 (横浜, 1999年3月)] LI>[Invited Lecture] 原子間力顕微鏡によるゼオライト表面と吸着分子の原子/分子配列構造. [触媒学会第84回触媒討論会 (秋田, 1999年9月)]
  15. [Keynote Lecture] Atomic Force Microscopy Observations of Organic Molecules and Metal Complexes Adsorbed at Water-Zeolite Interfaces. [Bouyoucos Conference on Environmental Chemistry at the Clay-Water Interface (Honolulu, March, 2000)]
  16. [Invited Paper] Atoms and Molecules on Zeolite Surfaces. [The 8th International Colloquium on Scanning Probe Microscopy and Asian SPM (3) (Atagawa, December, 2000)]
  17. [Plenary Lecuture] Application of Scanning Probe Microscopy to Catalyst Research: A Few Examples. [The Workshop of Molecular Design and Simulation, Changsha, June, 2002)]
  18. [Invited Lecture] STMによる触媒表面と光との相互作用:TiO2(110). [第90回触媒討論会A (浜松, 2002年9月)]
  19. [Invited Lecture] 光励起STMによる酸化チタン表面光吸収サイトの観察.  [精密表面・光触媒セミナー (名古屋, 2005年9月)]
  20. [Invited Paper] Recent Biogas Productions and Applications in Japan. [3rd International Symposium on New and Renewable Energy (Jeonju, November, 2006)]
  21. [Invited Lecture] 走査プローブ顕微鏡を使った表面分析.  [東北地区触媒講演会(仙台, 2007年12月)]
  22. [Invited Talk] Molecular Imaging of Chemical Species Adsorbed on Solid Surfaces by Scanning Probe Microscopy. [Indian Vacuum Society Symposium on Thin Films: Science and Technology (Mumbai, November, 2011)]
  23. [Invited Lecture] Hydrothermal Gasification of Ethanol Fermentation Stillage: Catalysts and their Reaction Characteristics. [First International Conference on Emerging Advanced Nanomaterials (Brisbane, October, 2012)]
  24. [Keynote Lecture] Hydrothermal Conversion of Biomass to Fuels and Chemicals. [3rd Interna-tional Conference on Renewable Energy: Generation and Applications (Al Ain, March, 2014)]
  25. [Invited Lecture] Catalytic Hydrothermal Energy Conversion of Biomass. [Peradeniya University International Research Sessions (iPURSE) (Kandy, July, 2014)]
Patents
  1. 一酸化炭素の変換方法. [特公昭59-35894(1984)]
    Y. Ogino, S. Ozawa, M. Komiyama and T. Tsunoda
  2. 振動検出装置. [特公平1-304330(1989)]
    M. Komiyama
  3. 光触媒システム. [特願2002-016905]
    M. Komiyama
  4. 燃焼装置及びこれを備えたコージェネレーションシステム. [特許願2009-213644]
    M. Komiyama, S. Igarashi, T. Kato
  5. 有機廃棄物のガス化方法. [特願2013-145922]
    M. Komiyama, E. Kobayashi and T. Ishikawa
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