論文

• 4. Sota Akiyama, Akimitsu Miyaji, Yoshihiro Hayashi, Misao Hiza, Yasumasa Sekiguchi, To-ru Koyama, Akinobu Shiga, Toshihide Baba. Selective conversion of ethanol to 1,3-butadiene using germanium talc as catalyst., Journal of Catalysis, Vol. 359, 184-197, Mar. 2018.
• Yoshihiro Hayashi, Sohta Akiyama, Akimitsu Miyaji, Yasumasa Sekiguchi, Yasuharu Sakamoto, Akinobu Shiga, To-ru Koyama, Ken Motokura, Toshihide Baba. Experimental and Theoretical Studies of the Roles of MgO and Zn in Talc for the Selective Formation of 1,3-Butadiene in the Conversion of ethanol, Physical Chemistry Chemical Physics, Vol. 18, pp. 25191-25209, Aug. 2016.
• Akimitsu Miyaji, Akinobu Shiga, Yoshihiro Hayashi, Toshiki Nishitoba, To-ru Koyama, Ken Motokura, Toshihide Baba. Designating Oxygen Anions in Al-ITQ-21 as Brønsted Acid Sites Using DFT Calculations, Journal of Physical Chemistry C, 119, 16568–16577, July 2015.
• Yasumasa Sekiguchi, Sohta Akiyama, Wataru Urakawa, To-ru Koyama, Akimitsu Miyaji, Ken Motokura, Toshihide Baba. One-step catalytic conversion of ethanol into 1,3-butadiene using zinc-containing talc, Catalysis Communications, 68, 20-24, Apr. 2015.
• Akimitsu Miyaji, To-ru Koyama, Ken Motokura, Tatsuaki Yashima, Ryutaro Koide, Jakkidi Krishna Reddy, Sho Yamaguchi, Toshihide Baba. Identification and Catalytic Behavior of Brønsted Acid Sites on Al-Containing ITQ-21, The Journal of Physical Chemistry C, 117, 18074-18083, Aug. 2013.
• Naoki Asakawa, Ken Motokura, Tatsuaki Yashima, To-ru Koyama, Toshinori O-nuki, Akimitsu Miyaji, Toshihide Baba. Proton Exchange Reaction between Hydroxyl Groups in the Supercage and Those in the Sodalitecage of Y Zeolite as Studied by Variable Temperature 1H MAS NMR, The Journal of Physical Chemistry C, 116, 17734-17738, July 2012.
• Hajime Munakata, To-ru Koyama, Tatsuaki Yashima, Naoki Asakawa, Toshinori O-nuki, Ken Motokura, Akimitsu Miyaji, Toshihide Baba. Temperature Effect on 1H Chemical Shift of Hydroxyl Groups in Zeolites and their Catalytic Activities as Solid Acids, The Journal of Physical Chemistry C, 116, 14551-14560, June 2012.
• Krishna Reddy Jakkidi, Ken Motokura, To-ru Koyama, Akimitsu Miyaji, Toshihide Baba. Effect of morphology and particle size of ZSM-5 on catalytic performance for ethylene conversion and heptane cracking, Journal of Catalysis, 289, 53-61, Feb. 2012.
• Yasuyoshi Iwase, Yasuharu Sakamoto, Akinobu Shiga, Akimitsu Miyaji, Ken Motokura, To-ru Koyama, Toshihide Baba. Shape-Selective Catalysis Determined by the Volume of a Zeolite Cavity and the Reaction Mechanism for Propylene Production by the Conversion of Butene Using a Proton-Exchanged Zeolite, The Journal of Physical Chemistry C, 116, 5182-5196, Jan. 2012.
• To-ru Koyama, Yoshihiro Hayashi, Hironori Horie, Susumu Kawauchi, Akihiko Matsumoto, Yasuyoshi Iwase, Yasuharu Sakamoto, Akimitsu Miyaji, Ken Motokura, Toshihide Baba. Key role of the pore volume of zeolite for selective production of propylene from olefins, Phys. Chem. Chem. Phys., Vol. 12, Page 2541-2554, Jan. 2010.
• Yasuyoshi Iwase, Ken Motokura, To-ru Koyama, Akimitsu Miyaji, Toshihide Baba. Influence of Si Distribution in Framework of SAPO-34 and Its Particle Size on Propylene Selectivity and Production Rate for Conversion of Ethylene to Propylene, Physical Chemistry Chemical Physics, Vol. 11, 9268-9277, Aug. 2009.

国内会議発表 (査読有り)

• 宗像元, 小山徹, 本倉健, 宮地輝光, 馬場俊秀. 1H MAS NMRからみた高温におけるゼオライト水酸基の性質と酸触媒特性, 触媒, 55, 77-79, 2013.
• 岩瀬安慶, 坂本康治, 志賀昭信, 小山徹, 宮地輝光, 本倉健, 馬場俊秀. エチレン,ブテンからの選択的プロピレン生成に果たすゼオライト細孔構造の役割とその生成機構, 触媒, 54, 111-113, 2012.

[ BibTeX 形式で保存 ]    [ 論文・著書をCSV形式で保存 ]    [ 特許をCSV形式で保存 ]