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Koizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2017) An atomic-level insight into the basic mechanism responsible for the enhancement of the catalytic oxidation of carbon monoxide on a Cu/CeO2 surface. Physical Chemistry Chemical Physics, 19 (5). 3498-3505 doi:10.1039/c6cp05957k

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Reference TypeJournal (article/letter/editorial)
TitleAn atomic-level insight into the basic mechanism responsible for the enhancement of the catalytic oxidation of carbon monoxide on a Cu/CeO2 surface
JournalPhysical Chemistry Chemical Physics
AuthorsKoizumi, KenichiAuthor
Nobusada, KatsuyukiAuthor
Boero, MauroAuthor
Year2017Volume19
Issue5
PublisherRoyal Society of Chemistry (RSC)
DOIdoi:10.1039/c6cp05957kSearch in ResearchGate
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Mindat Ref. ID4032213Long-form Identifiermindat:1:5:4032213:3
GUID0
Full ReferenceKoizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2017) An atomic-level insight into the basic mechanism responsible for the enhancement of the catalytic oxidation of carbon monoxide on a Cu/CeO2 surface. Physical Chemistry Chemical Physics, 19 (5). 3498-3505 doi:10.1039/c6cp05957k
Plain TextKoizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2017) An atomic-level insight into the basic mechanism responsible for the enhancement of the catalytic oxidation of carbon monoxide on a Cu/CeO2 surface. Physical Chemistry Chemical Physics, 19 (5). 3498-3505 doi:10.1039/c6cp05957k
In(2017) Physical Chemistry Chemical Physics Vol. 19 (5) Royal Society of Chemistry (RSC)

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Koizumi, Kenichi, Yoshida, Hiroshi, Boero, Mauro, Tamai, Kazuki, Hosokawa, Saburo, Tanaka, Tsunehiro, Nobusada, Katsuyuki, Machida, Masato (2018) A detailed insight into the catalytic reduction of NO operated by Cr–Cu nanostructures embedded in a CeO2 surface. Physical Chemistry Chemical Physics, 20 (40). 25592-25601 doi:10.1039/c8cp04314k
Koizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2016) The absence of a gap state and enhancement of the Mars–van Krevelen reaction on oxygen defective Cu/CeO2 surfaces. Physical Chemistry Chemical Physics, 18 (30). 20708-20712 doi:10.1039/c6cp03880h
Koizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2019) Hydrogen storage mechanism and diffusion in metal–organic frameworks. Physical Chemistry Chemical Physics, 21 (15). 7756-7764 doi:10.1039/c8cp07467d
Koizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2015) Reaction Pathway and Free Energy Landscape of Catalytic Oxidation of Carbon Monoxide Operated by a Novel Supported Gold–Copper Alloy Cluster. The Journal of Physical Chemistry C, 119 (27). 15421-15427 doi:10.1021/acs.jpcc.5b04223
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Koizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2017) Frontispiece: Simple but Efficient Method for Inhibiting Sintering and Aggregation of Catalytic Pt Nanoclusters on Metal-Oxide Supports. Chemistry - A European Journal, 23 (7). doi:10.1002/chem.201780763
Koizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2017) Simple but Efficient Method for Inhibiting Sintering and Aggregation of Catalytic Pt Nanoclusters on Metal-Oxide Supports. Chemistry - A European Journal, 23 (7). 1531-1538 doi:10.1002/chem.201604188
Koizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2016) Reducing the Cost and Preserving the Reactivity in Noble-Metal-Based Catalysts: Oxidation of CO by Pt and Al-Pt Alloy Clusters Supported on Graphene. Chemistry - A European Journal, 22 (15). 5181-5188 doi:10.1002/chem.201504379
Koizumi, Kenichi, Nobusada, Katsuyuki, Boero, Mauro (2016) Inside Cover: Reducing the Cost and Preserving the Reactivity in Noble-Metal-Based Catalysts: Oxidation of CO by Pt and Al-Pt Alloy Clusters Supported on Graphene (Chem. Eur. J. 15/2016). Chemistry - A European Journal, 22 (15). 5022 doi:10.1002/chem.201600711
Hatakeyama, Makoto, Koizumi, Kenichi, Boero, Mauro, Nobusada, Katsuyuki, Hori, Hirokazu, Misonou, Taku, Kobayashi, Takao, Nakamura, Shinichiro (2019) Unique Structural Relaxations and Molecular Conformations of Porphyra-334 at the Excited State. The Journal of Physical Chemistry B, 123 (36). 7649-7656 doi:10.1021/acs.jpcb.9b03744
Shen, Yongli, Yin, Kangjuan, Xiao, Zihui (2019) Theoretical insight into the single-atom catalytic mechanism of CeO2-supported Ag catalysts in CO oxidation. Physical Chemistry Chemical Physics, 21 (36). 20346-20353 doi:10.1039/c9cp03201k
 
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