研究業績(霜田直宏)

Ⅰ.研究論文(査読あり学術雑誌)

  1. Ag addition to CuO-ZrO2 catalysts promotes methanol synthesis via CO2 hydrogenation, S. Tada, F. Watanabe, K. Kiyota, N. Shimoda, R. Hayashi, M. Takahashi, A. Nariyuki, A. Igarashi, S. Satokawa, Journal of Catalysis, 351, 107-118 (2017).
  2. Sulfur tolerance of noble metal catalysts for steam methane reforming, F. Watanabe, I. Kaburaki, Shimoda, A. Igarashi, S. Satokawa, Journal of the Japan Petroleum Institute, 60(3), 137-145 (2017).
  3. Electrochemical synthesis of ammonia using a proton conducting solid electrolyte and nickel cermet electrode”, Naohiro Shimoda,  Yusuke Kobayashi, Yutaka Kimura, Go Nakagawa, Shigeo Satokawa, Journal of the Ceramic Society of Japan, 125(4), 252-256 (2017).
  4. Blue and orange oxygen responsive emissions in the solid state based on copper(I) complexes bearing dodecafluorinated diphosphine and 1,10-phenanthroline derivative ligands”, Masaya Washimi, Michihiro Nishikawa, Naohiro Shimoda, Shigeo Satokawa, Taro. Tsubomura, Inorganic Chemistry Frontiers, 4, 639-649 (2017).
  5. Electrochemical Synthesis of Ammonia Using Proton Conducting Solid Electrolyte and Ru-Doped BaCe0.8Y0.1Ru0.1O3-d Electrode Catalyst, Yusuke Kobayashi, Naohiro Shimoda, Yutaka Kimura, Shigeo Satokawa, ECS Transactions, 75(42), 43-52 (2017).
  6. Influence of nitrogen impurity for steam methane reforming over noble metal catalysts, Fumihiro Watanabe, Ikuko Kaburaki, Naohiro Shimoda, Shigeo Satokawa, Fuel Processing Technology, 152, 15-21 (2016).
  7. Physical mixing of TiO2 with spong nichel creates new active sites for selective CO methanation, Shohei Tada, Daiki Shoji, Kohei Urasaki, Naohiro Shimoda, Shigeo Satokawa, Catalysis Science & Technology, 6, 3713-3717 (2016).
  8. Methanol oxidative decomposition over zirconia supported silver catalyst and its reaction mechanism, Naohiro Shimoda, Shota Umehara, Masaki Kasahara, Teruhisa Hongo, Atsushi Yamazaki, Shigeo Satokawa, Applied Catalysis A: General, 57, 56-64 (2015).
  9. Role of trace chlorine in Ni/TiO2 catalyst for CO selective methanation in reformate gas, Naohiro Shimoda, Daiki Shoji, Kazunori Tani, Masashi Fujiwara, Kohei Urasaki, Ryuji Kikuchi, Shigeo Satokawa, Applied Catalysis B: Environmental, 174-175, 486-495 (2015).
  10. Decomposition of tert-butanethiol into hydrogen sulfide without hydrogen addition over H-Y and H-beta zeolites, Takashi Mukoyama, Naohiro Shimoda, Shigeo Satokawa, Journal of the Japan Petroleum Institute, 58, 176-184 (2015).
  11. Catalytic decomposition of methanethiol to hydrogen sulfide over TiO2, Takashi Mukoyama, Naohiro Shimoda, Shigeo Satokawa, Fuel Processing Technology, 131, 117-124 (2015).
  12. Development of Cu-based Spinel Catalyst for Steam Reforming of Dimethyl Ether for Hydrogen Production, Naohiro Shimoda, The Journal of the Faculty of Science and Technology Seikei University, 50(2), 43-50 (2013).
  13. Dimethyl ether steam reforming under daily start-up and shut-down (DSS)-like operation over CuFe2O4 spinel and alumina composite catalysts, Naohiro Shimoda, Hiroki Muroyama, Toshiaki Matsui, Kajornsak Faungnawakij, Ryuji Kikuchi, Koichi Eguchi, Applied Catalysis A: General, 409-410, 91-98 (2011).
  14. A study of various zeolites and CuFe2O4 spinel composite catalysts in steam reforming and hydrolysis of dimethyl ether, Naohiro Shimoda, Kajornsak Faungnawakij, Ryuji Kikuchi, Koichi Eguchi, International Journal of Hydrogen Energy, 36, 1433-1441 (2011).
  15. Degradation and regeneration of copper-iron spinel and zeolite composite catalysts in steam reforming of dimethyl ether, Naohiro Shimoda, Kajornsak Faungnawakij, Ryuji Kikuchi, Koichi Eguchi, Applied Catalysis A: General, 378(2), 234-242 (2010).
  16. Limiting mechanisms in catalytic steam reforming of dimethyl ether, Kajornsak Faungnawakij, Naohiro Shimoda, Nawin Viriya-empikul, Ryuji Kikuchi, Koichi Eguchi, Applied Catalysis B: Environmental, 97(1-2), 21-27 (2010).
  17. Catalytic performance enhancement by heat treatment of CuFe2O4 spinel and γ-alumina composite catalysts for steam reforming of dimethyl ether, Naohiro Shimoda, Kajornsak Faungnawakij, Ryuji Kikuchi, Tetsuya Fukunaga, Koichi Eguchi, Applied Catalysis A: General, 365(1), 71-78 (2009).
  18. Crystal structure and surface species of CuFe2O4 spinel catalysts in steam reforming of dimethyl ether, Kajornsak Faungnawakij, Naohiro Shimoda, Tetsuya Fukunaga, Ryuji Kikuchi, Koichi Eguchi, Applied Catalysis B: Environmental, 92(3-4), 341-350 (2009).
  19. Effectof thermal treatment on activity and durability of CuFe2O4-Al2O3 composite catalysts for steam reforming of dimethyl ether, Kajornsak Faungnawakij, Ryuji Kikuchi, Naohiro Shimoda, Tetsuya Fukunaga, Koichi
    Eguchi, Angewandte Chemie International Edition, 47, 9314-9317 (2008).
  20. Transmission electron microscopic observation on reduction process of Copper-Iron spinel catalyst for steam reforming of dimethyl ether, Koichi Eguchi, Naohiro Shimoda, Kajornsak Faungnawakij, Toshiaki Matsui, Ryuji Kikuchi, Syunichiro Kawashima, Applied Catalysis B: Environmental, 80, 156-167 (2008).
  21. Cu-based spinels CuB2O4 (B = Fe, Mn, Cr, Ga, Al, Fe0.75Mn0.25) for steam reforming of dimethyl ether, Kajornsak Faungnawakij, Naohiro Shimoda, Tetsuya Fukunaga, Ryuji Kikuchi, Koichi Eguchi, Applied Catalysis A: General, 341, 139-145 (2008).
  22. Hydrogen production from dimethyl ether steam reforming over composite catalysts of copper ferrite spinel and alumina, Kajornsak Faungnawakij, Yohei Tanaka, Naohiro Shimoda, Tetsuya Fukunaga, Ryuji Kikuchi, Koichi Eguchi, Applied Catalysis B: Environmental, 74, 144-151 (2007).
  23. Influence of solid-acid catalysts on steam reforming and hydrolysis of dimethyl ether for hydrogen production”, Kajornsak Faungnawakij, Yohei Tanaka, Naohiro Shimoda, Tetsuya Fukunaga, Syunichiro Kawashima, Ryuji Kikuchi, Koichi Eguchi, Applied Catalysis A: General, 304(1), 40-48 (2006).

Ⅱ.国際会議発表論文

  1. Synthesis of zirconia in mesoporous silica and its catalytic property for methanol oxidative decomposition, Naohiro Shimoda, Kyoko Nakayama, Shota Umehara, Shigeo Satokawa, PACIFICHEM 2015 (Honolulu, Hawaii, USA). #23-1139, (2015, 12)
  2. Synthesis of HEU-type zeolites and its application for steam reforming of dimethyl ether, Satoshi Watabe, Naohiro Shimoda, Shigeo Satokawa, PACIFICHEM 2015 (Honolulu, Hawaii, USA). #111-563, (2015, 12)
  3. Deterioration behavior of Ni/TiO2 catalyst for the selective CO methanation and its improvement of method, Masashi Fujiwara, Kazunori Tani, Naohiro Shimoda, Shigeo Satokawa, PACIFICHEM 2015 (Honolulu, Hawaii, USA). #275-203, (2015, 12)
  4. Comparative study on the sulfur tolerance of noble metal catalysts in methane steam reforming, Fumihiro Watanabe, Ikuko Kaburaki, Naohiro Shimoda, Shigeo Satokawa, PACIFICHEM 2015 (Honolulu, Hawaii, USA). #111-223, (2015, 12)
  5. Synthesis and Catalytic Property of Highly Crystalline HEU-type Zeolite, Shigeo Satokawa, Satoshi Watabe, Yuma Tomitsuka, Satoru Akiyama, Naohiro Shimoda, ZMPC2015 (Sapporo, JPN), OB22, (2015, 07)
  6. Effect of traces of chlorine in Ni/TiO2 catalyst for the CO selective methanation in reformed gas, Naohiro Shimoda, Daiki Shoji, Kazunori Tani, Masashi Fujiwara, Ryuji Kikuchi, Shigeo Satokawa, 8th ICEC2014 (Asheville, NC, USA), SCE-P-39, (2014, 08)
  7. Effect of reduction condition of Ni/Al2O3 catalyst for suppression of ammonia by-production during steam reforming of nitrogen contaminated methane, Shigeo Satokawa, Fumihiro Watanabe, Naohiro Shimoda, 8th ICEC2014 (Asheville, NC, USA), SCE-P-37, (2014, 08)
  8. Methanol oxidative decomposition over various oxides supported Ag catalysts and its reaction mechanism, Naohiro Shimoda, Syota Umehara, Masaki Kasahara, Teruhisa Hongo, Atsushi Yamazaki, Shigeo Satokawa, TOCAT7 (Kyoto, JPN), O-C22, Program and Abstracts 32P, (2014, 06)
  9. Comparison of ammonia formation over noble metal catalysts for steam reforming of nitrogen-containing natural gas, Fumihiro Watanabe, Ikuko Kaburaki, Naohiro Shimoda, Shigeo Satokawa, TOCAT7 (Kyoto, JPN), GP1006, Program and Abstracts 83P, (2014, 06)
  10. Development of Cu-Fe Spinel and Various Oxides Composite Catalysts for Methanol Steam Reforming and Water-Gas Shift Reactions, ™Naohiro Shimoda, Muroyama Hiroki, Toshiaki Matsui, Koichi Eguchi, APCAT6 (Taipei), MON-P1-116, (2013.10).
  11. Steam reforming of dimethyl ether over the composite catalyst of Cu-Fe spinel and alumina: effect of heat treatment and mixing method on catalytic activity, Naohiro Shimoda, Kajornsak Faungnawakij, Ryuji Kikuchi, Koichi Eguchi, TOCAT6/APCAT5 (Sapporo, JPN), O-B42, Program and Abstracts 101P, (2010.7).
  12. Effect of heat treatment on activity and durability of CuFe2O4 and alumina composite catalysts for steam reforming of dimethyl ether, Ryuji Kikuchi, Naohiro Shimoda, Tetsuya Fukunaga, Kocihi Eguchi., ICC 14 Pre-symposium (Kyoto, JPN), OB304, BOOK OF ABSTRACTS 109P, (2008.07).
  13. Effect of Acid Catalyst on steam reforming of dimethyl ether over Cu spinel composite catalysts for hydrogen production, Naohiro Shimoda, Ryuji Kikuchi, Kajornsak Faungnawakij, Tetsuya Fukunaga, Syunichiro Kawashima, Koichi Eguchi,4th Asian DME Conference (JPN), Proceedings 473P, (2007.11).
  14. Durability and activity of Cu spinel and alumina composite catalysts for steam reforming of dimethyl ether, Ryuji Kikuchi, Kajornsak Faungnawakij, Naohiro Shimoda, Tetsuya Fukunaga, Syunichiro Kawashima, Koichi Eguchi,4th
    Asian DME Conference (Kokura, JPN), Proceedings 471P, (2007.11).
  15. Effect of pretreatment on Cu-based spinel catalysts for DME steam reforming, Naohiro Shimoda, Kajornsak Faungnawakij, Toshiaki Matsui, Ryuji Kikuchi, Koichi Eguchi,International Symposium on Design of Advanced Materials Using Nano Space (ISDAM-2006, Osaka, Japan), P-56, (2006.8).

 

Ⅲ.その他の論文,記事

 

  1. 関西触媒懇談会報告記事、霜田直宏、触媒, XX, No. X, XXP (20XX).
  2. ジメチルエーテル水蒸気改質反応におけるCu系スピネル複合触媒の熱処理効果とDSS作動条件下での耐久性、霜田直宏、室山広樹、松井敏明、菊地隆司、江口浩一、第106回触媒討論会(1B03, 2010.9, 山梨)、触媒, 52, No. 6, 402-404P (2010).
  3. フォーラム・会員の声 Le vent se leve, il faut tenter de vivre, 霜田直宏 触媒56(1) 67-68   2014年1月
  4. JPIJSだより 2014年度JPIJS関東地区企業見学会報告,霜田直宏 ペテロテック38(4) 308   2015年4月
  5. JPIJSだより 第20回JPIJSポスターセッション報告、霜田直宏 ペテロテック 38(8) 620 2015年8月
  6. トピックス:固体電解質を用いたアンモニア電解合成の現状と課題、霜田直宏 触媒 57(5) 2015

 

Ⅳ.解説、総説

 

Ⅴ.講演等

  1. 京都大学:新材料の科学研究部門 全体セミナー (依頼) スピネル型複合酸化物を利用した固体触媒設計、霜田直宏、2012年3月

 

 

 

Ⅵ.競争的資金等の研究課題

  1. メソポーラス空間を利用したジルコニア担持Ag触媒の合成とその燃焼触媒特性 北海道大学: 触媒化学研究センター共同利用・共同研究 研究期間: 2014年4月1日-2015年3月31日代表者: 霜田直宏
  2. 貴金属触媒を用いたメタン水蒸気改質反応での不純物硫黄成分の影響北海道大学: 触媒化学研究センター共同利用・共同研究 研究期間: 2015年8月1日-2015年3月31日代表者: 霜田直宏

 

(2016年4月11日現在)