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Direct observation of catalytic oxidation of particulate matter using in situ TEM.


ABSTRACT: The ability to observe chemical reactions at the molecular level convincingly demonstrates the physical and chemical phenomena occurring throughout a reaction mechanism. Videos obtained through in situ transmission electron microscopy (TEM) revealed the oxidation of catalytic soot under practical reaction conditions. Carbon oxidation reactions using Ag/SiO2 or Cs2CO3/nepheline catalysts were performed at 330?°C under an O2 flow of 0.5?Pa in the TEM measurement chamber. Ag/SiO2 catalyzed the reaction at the interface of the mobile Ag species and carbon, while the Cs species was fixed on the nepheline surface during the reaction. In the latter case, carbon particles moved, remained attached to the Cs2CO3/nepheline surface, and were consumed at the interface by the oxidation reaction. Using this technique, we were able to visualize such mobile and immobile catalysis according to different mechanisms.

SUBMITTER: Kamatani K 

PROVIDER: S-EPMC4495604 | biostudies-literature | 2015 Jul

REPOSITORIES: biostudies-literature

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Direct observation of catalytic oxidation of particulate matter using in situ TEM.

Kamatani Kohei K   Higuchi Kimitaka K   Yamamoto Yuta Y   Arai Shigeo S   Tanaka Nobuo N   Ogura Masaru M  

Scientific reports 20150708


The ability to observe chemical reactions at the molecular level convincingly demonstrates the physical and chemical phenomena occurring throughout a reaction mechanism. Videos obtained through in situ transmission electron microscopy (TEM) revealed the oxidation of catalytic soot under practical reaction conditions. Carbon oxidation reactions using Ag/SiO2 or Cs2CO3/nepheline catalysts were performed at 330 °C under an O2 flow of 0.5 Pa in the TEM measurement chamber. Ag/SiO2 catalyzed the reac  ...[more]

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