Study of CN Adsorbed on Pt(100) by Density Functional Theory

Jian Ming Hu; Jun Qian Li; Yi Li; Yong Fan Zhang; Wei Lin

Study of CN Adsorbed on Pt(100) by Density Functional Theory

Jian Ming Hu, Jun Qian Li, Yi Li, Yong Fan Zhang, Wei Lin

Chemistry (Twin Cities)

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

13 Scopus citations

Abstract

The interaction of cyanide (CN) with different sites of Pt(100) surface is studied by using density functional theory (DFT). Pt₁₄ cluster is used to simulate the surface. The present calculations show that the top site is more favorable than other adsorption sites when CN is bonded to the surface via the carbon, and the calculated C - N stretching frequency is blue shift in agreement with the experimental results. For other adsorption sites on the Pt(100) surface, the calculated C - N stretching frequencies are red shift. When CN molecule adsorbed on Pt(100), the charge transfer between the σ and π electron of CN molecule and the substrate led to the variation of CN vibrational frequency.

Original language	English (US)
Pages (from-to)	27-32
Number of pages	6
Journal	Acta Physico - Chimica Sinica
Volume	20
Issue number	1
State	Published - Jan 2004

Keywords

Adsorption
Cyanide
Density function
Pt(100) surface

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abstract = "The interaction of cyanide (CN) with different sites of Pt(100) surface is studied by using density functional theory (DFT). Pt14 cluster is used to simulate the surface. The present calculations show that the top site is more favorable than other adsorption sites when CN is bonded to the surface via the carbon, and the calculated C - N stretching frequency is blue shift in agreement with the experimental results. For other adsorption sites on the Pt(100) surface, the calculated C - N stretching frequencies are red shift. When CN molecule adsorbed on Pt(100), the charge transfer between the σ and π electron of CN molecule and the substrate led to the variation of CN vibrational frequency.",

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AU - Li, Yi

AU - Zhang, Yong Fan

AU - Lin, Wei

PY - 2004/1

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N2 - The interaction of cyanide (CN) with different sites of Pt(100) surface is studied by using density functional theory (DFT). Pt14 cluster is used to simulate the surface. The present calculations show that the top site is more favorable than other adsorption sites when CN is bonded to the surface via the carbon, and the calculated C - N stretching frequency is blue shift in agreement with the experimental results. For other adsorption sites on the Pt(100) surface, the calculated C - N stretching frequencies are red shift. When CN molecule adsorbed on Pt(100), the charge transfer between the σ and π electron of CN molecule and the substrate led to the variation of CN vibrational frequency.

AB - The interaction of cyanide (CN) with different sites of Pt(100) surface is studied by using density functional theory (DFT). Pt14 cluster is used to simulate the surface. The present calculations show that the top site is more favorable than other adsorption sites when CN is bonded to the surface via the carbon, and the calculated C - N stretching frequency is blue shift in agreement with the experimental results. For other adsorption sites on the Pt(100) surface, the calculated C - N stretching frequencies are red shift. When CN molecule adsorbed on Pt(100), the charge transfer between the σ and π electron of CN molecule and the substrate led to the variation of CN vibrational frequency.

KW - Adsorption

KW - Cyanide

KW - Density function

KW - Pt(100) surface

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Study of CN Adsorbed on Pt(100) by Density Functional Theory

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