Very low temperature surface reaction: N2O Formation from NO dimers at 70 to 90 K on Ag{111}

W. A. Brown; P. Gardner; D. A. King

Very low temperature surface reaction: N2O Formation from NO dimers at 70 to 90 K on Ag{111}

W. A. Brown, P. Gardner, D. A. King

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Abstract

When Ag{111} is exposed to NO at 40 K, monolayer adsorption is followed by multilayer (NO)2 formation. Heating to 60 K results in the desorption of the dimer multilayer, leaving a monolayer on the surface. Using isotopes, the monolayer has also been characterized as dimers, which have the N-N axis coplanar with the surface. At 70 to 90 K, N2O is formed from (NO)2 on the Ag{111} surface. Further heating to 120 K results in the desorption of the N2O. The reactive species is thus shown to be the adsorbed dimer, which cannot be formed at higher temperatures on exposure to NO because the surface coverage is too low. The monomer, adsorbed NO, is thus weakly adsorbed, in agreement with expectation. © 1995 American Chemical Society.

Original language	English
Pages (from-to)	7065-7074
Number of pages	9
Journal	Journal of Physical Chemistry
Volume	99
Issue number	18
Publication status	Published - 1995

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@article{e90df429544d4e12ad17607c84d3b0c0,

title = "Very low temperature surface reaction: N2O Formation from NO dimers at 70 to 90 K on Ag{111}",

abstract = "When Ag{111} is exposed to NO at 40 K, monolayer adsorption is followed by multilayer (NO)2 formation. Heating to 60 K results in the desorption of the dimer multilayer, leaving a monolayer on the surface. Using isotopes, the monolayer has also been characterized as dimers, which have the N-N axis coplanar with the surface. At 70 to 90 K, N2O is formed from (NO)2 on the Ag{111} surface. Further heating to 120 K results in the desorption of the N2O. The reactive species is thus shown to be the adsorbed dimer, which cannot be formed at higher temperatures on exposure to NO because the surface coverage is too low. The monomer, adsorbed NO, is thus weakly adsorbed, in agreement with expectation. {\textcopyright} 1995 American Chemical Society.",

author = "Brown, {W. A.} and P. Gardner and King, {D. A.}",

year = "1995",

language = "English",

volume = "99",

pages = "7065--7074",

journal = "Journal of Physical Chemistry",

issn = "0022-3654",

publisher = "American Chemical Society",

number = "18",

}

TY - JOUR

T1 - Very low temperature surface reaction: N2O Formation from NO dimers at 70 to 90 K on Ag{111}

AU - Brown, W. A.

AU - Gardner, P.

AU - King, D. A.

PY - 1995

Y1 - 1995

N2 - When Ag{111} is exposed to NO at 40 K, monolayer adsorption is followed by multilayer (NO)2 formation. Heating to 60 K results in the desorption of the dimer multilayer, leaving a monolayer on the surface. Using isotopes, the monolayer has also been characterized as dimers, which have the N-N axis coplanar with the surface. At 70 to 90 K, N2O is formed from (NO)2 on the Ag{111} surface. Further heating to 120 K results in the desorption of the N2O. The reactive species is thus shown to be the adsorbed dimer, which cannot be formed at higher temperatures on exposure to NO because the surface coverage is too low. The monomer, adsorbed NO, is thus weakly adsorbed, in agreement with expectation. © 1995 American Chemical Society.

AB - When Ag{111} is exposed to NO at 40 K, monolayer adsorption is followed by multilayer (NO)2 formation. Heating to 60 K results in the desorption of the dimer multilayer, leaving a monolayer on the surface. Using isotopes, the monolayer has also been characterized as dimers, which have the N-N axis coplanar with the surface. At 70 to 90 K, N2O is formed from (NO)2 on the Ag{111} surface. Further heating to 120 K results in the desorption of the N2O. The reactive species is thus shown to be the adsorbed dimer, which cannot be formed at higher temperatures on exposure to NO because the surface coverage is too low. The monomer, adsorbed NO, is thus weakly adsorbed, in agreement with expectation. © 1995 American Chemical Society.

M3 - Article

SN - 0022-3654

VL - 99

SP - 7065

EP - 7074

JO - Journal of Physical Chemistry

JF - Journal of Physical Chemistry

IS - 18

ER -

Very low temperature surface reaction: N2O Formation from NO dimers at 70 to 90 K on Ag{111}

Abstract

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