アルミナ担持白金触媒を用いたメタンと一酸化窒素によるシアン化水素合成における粒子径効果

Tatsuya Yamasaki; Atsushi Takagaki; Tetsuya Shishido; Kyoko K. Bando; Tetsuya Kodaira; Junichi Murakami; Juntae Song; Eiki Niwa; Motonori Watanabe; Tatsumi Ishihara

doi:10.1627/jpi.65.184

アルミナ担持白金触媒を用いたメタンと一酸化窒素によるシアン化水素合成における粒子径効果

Translated title of the contribution: Particle Size Effect on Hydrogen Cyanide Synthesis with CH4 and NO over an Alumina-supported Platinum Catalyst

Tatsuya Yamasaki, Atsushi Takagaki, Tetsuya Shishido, Kyoko K. Bando, Tetsuya Kodaira, Junichi Murakami, Juntae Song, Eiki Niwa, Motonori Watanabe, Tatsumi Ishihara

Research output: Contribution to journal › Article › peer-review

Abstract

The effect of particle size of Pt nanoparticles on the conversion of CH₄ into hydrogen cyanide (HCN) using NO as an oxidant over the Pt supported (γ + θ)-Al₂O₃ was studied. The Pt catalysts with various average particle size in the range of 1.6 to 4.1 nm were obtained by controlling the loading amount and calcination temperature. The NO conversion in the catalysts having small particle size (1.6-3.2 nm) of Pt was lower than the larger one. The catalysts having large particle size (4.1-4.2 nm) showed high selectivity to HCN reaching 53.5% at 1.3% C-based yield at 400°C over 10 wt.% Pt/Al₂O₃. The higher activity with larger Pt particles is attributed to the suppression of the sequential reaction of HCN to CO₂ and NH₃ which likely proceeded at the interface between metal and support. Pt L₃-edge XAFS spectra showed that the small particle catalysts were covered with Pt-CN species after the reaction test. Meanwhile, Pt-CO was observed as main adsorbed species on the large particle catalysts, suggesting that HCN desorption process was facile for the larger Pt particle case.

Translated title of the contribution	Particle Size Effect on Hydrogen Cyanide Synthesis with CH4 and NO over an Alumina-supported Platinum Catalyst
Original language	Japanese
Pages (from-to)	184-191
Number of pages	8
Journal	journal of the japan petroleum institute
Volume	65
Issue number	5
DOIs	https://doi.org/10.1627/jpi.65.184
Publication status	Published - 2022

All Science Journal Classification (ASJC) codes

Fuel Technology
Energy Engineering and Power Technology

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10.1627/jpi.65.184

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@article{0d491d4f70d5464fa6bc441522ac9e8b,

title = "アルミナ担持白金触媒を用いたメタンと一酸化窒素によるシアン化水素合成における粒子径効果",

abstract = "The effect of particle size of Pt nanoparticles on the conversion of CH4 into hydrogen cyanide (HCN) using NO as an oxidant over the Pt supported (γ + θ)-Al2O3 was studied. The Pt catalysts with various average particle size in the range of 1.6 to 4.1 nm were obtained by controlling the loading amount and calcination temperature. The NO conversion in the catalysts having small particle size (1.6-3.2 nm) of Pt was lower than the larger one. The catalysts having large particle size (4.1-4.2 nm) showed high selectivity to HCN reaching 53.5% at 1.3% C-based yield at 400°C over 10 wt.% Pt/Al2O3. The higher activity with larger Pt particles is attributed to the suppression of the sequential reaction of HCN to CO2 and NH3 which likely proceeded at the interface between metal and support. Pt L3-edge XAFS spectra showed that the small particle catalysts were covered with Pt-CN species after the reaction test. Meanwhile, Pt-CO was observed as main adsorbed species on the large particle catalysts, suggesting that HCN desorption process was facile for the larger Pt particle case.",

author = "Tatsuya Yamasaki and Atsushi Takagaki and Tetsuya Shishido and Bando, {Kyoko K.} and Tetsuya Kodaira and Junichi Murakami and Juntae Song and Eiki Niwa and Motonori Watanabe and Tatsumi Ishihara",

note = "Funding Information: This work was supported by the Japan Science and Technology (JST) Agency under the CREST program, Grant Number JPMJCR16P2. A part of this work was performed at the KEK-IMSS-PF (2020G039).",

year = "2022",

doi = "10.1627/jpi.65.184",

language = "日本語",

volume = "65",

pages = "184--191",

journal = "Sekiyu Gakkaishi (Journal of the Japan Petroleum Institute)",

issn = "1346-8804",

publisher = "Japan Petroleum Institute",

number = "5",

}

TY - JOUR

T1 - アルミナ担持白金触媒を用いたメタンと一酸化窒素によるシアン化水素合成における粒子径効果

AU - Yamasaki, Tatsuya

AU - Takagaki, Atsushi

AU - Shishido, Tetsuya

AU - Bando, Kyoko K.

AU - Kodaira, Tetsuya

AU - Murakami, Junichi

AU - Song, Juntae

AU - Niwa, Eiki

AU - Watanabe, Motonori

AU - Ishihara, Tatsumi

N1 - Funding Information: This work was supported by the Japan Science and Technology (JST) Agency under the CREST program, Grant Number JPMJCR16P2. A part of this work was performed at the KEK-IMSS-PF (2020G039).

PY - 2022

Y1 - 2022

N2 - The effect of particle size of Pt nanoparticles on the conversion of CH4 into hydrogen cyanide (HCN) using NO as an oxidant over the Pt supported (γ + θ)-Al2O3 was studied. The Pt catalysts with various average particle size in the range of 1.6 to 4.1 nm were obtained by controlling the loading amount and calcination temperature. The NO conversion in the catalysts having small particle size (1.6-3.2 nm) of Pt was lower than the larger one. The catalysts having large particle size (4.1-4.2 nm) showed high selectivity to HCN reaching 53.5% at 1.3% C-based yield at 400°C over 10 wt.% Pt/Al2O3. The higher activity with larger Pt particles is attributed to the suppression of the sequential reaction of HCN to CO2 and NH3 which likely proceeded at the interface between metal and support. Pt L3-edge XAFS spectra showed that the small particle catalysts were covered with Pt-CN species after the reaction test. Meanwhile, Pt-CO was observed as main adsorbed species on the large particle catalysts, suggesting that HCN desorption process was facile for the larger Pt particle case.

AB - The effect of particle size of Pt nanoparticles on the conversion of CH4 into hydrogen cyanide (HCN) using NO as an oxidant over the Pt supported (γ + θ)-Al2O3 was studied. The Pt catalysts with various average particle size in the range of 1.6 to 4.1 nm were obtained by controlling the loading amount and calcination temperature. The NO conversion in the catalysts having small particle size (1.6-3.2 nm) of Pt was lower than the larger one. The catalysts having large particle size (4.1-4.2 nm) showed high selectivity to HCN reaching 53.5% at 1.3% C-based yield at 400°C over 10 wt.% Pt/Al2O3. The higher activity with larger Pt particles is attributed to the suppression of the sequential reaction of HCN to CO2 and NH3 which likely proceeded at the interface between metal and support. Pt L3-edge XAFS spectra showed that the small particle catalysts were covered with Pt-CN species after the reaction test. Meanwhile, Pt-CO was observed as main adsorbed species on the large particle catalysts, suggesting that HCN desorption process was facile for the larger Pt particle case.

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U2 - 10.1627/jpi.65.184

DO - 10.1627/jpi.65.184

M3 - 学術誌

AN - SCOPUS:85143163976

SN - 1346-8804

VL - 65

SP - 184

EP - 191

JO - Sekiyu Gakkaishi (Journal of the Japan Petroleum Institute)

JF - Sekiyu Gakkaishi (Journal of the Japan Petroleum Institute)

IS - 5

ER -

アルミナ担持白金触媒を用いたメタンと一酸化窒素によるシアン化水素合成における粒子径効果

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