Electron paramagnetic resonance investigation of the interaction of CO with the surface of electron-rich magnesium oxide: Evidence for the CO- radical anion

Elio Giamello; Damien Murphy; Leonardo Marchese; Gianmario Martra; Adriano Zecchina

doi:10.1039/FT9938903715

Electron paramagnetic resonance investigation of the interaction of CO with the surface of electron-rich magnesium oxide: Evidence for the CO^- radical anion

Elio Giamello
, Damien Murphy
, Leonardo Marchese
, Gianmario Martra
, Adriano Zecchina

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

Abstract

Carbon monoxide is easily reduced at the surface of electron- rich magnesium oxide prepared by contacting the solid with vapours of low-ionisation-energy metals (such as magnesium or alkali metals). The process has been followed by electron paramagnetic resonance (EPR) spectroscopy. The first step of the interaction, occurring at about 100 K, is the formation of adsorbed CO^- radical anions characterised by partial electron transfer from the solid to the molecule. At higher temperatures, this species reacts further with CO and surface electrons yielding long-chain diamagnetic oxocarbon anions, which are also formed on bare MgO via the C₂O₂^- ethylenedione radical ion. A fraction of the C₂O₂^- radical ions are stabilised at the surface and are observed even at room temperature.

Original language	English
Pages (from-to)	3715-3722
Number of pages	8
Journal	Journal of the Chemical Society - Faraday Transactions
Volume	89
Issue number	20
DOIs	https://doi.org/10.1039/FT9938903715
Publication status	Published - 1993
Externally published	Yes

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10.1039/FT9938903715

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title = "Electron paramagnetic resonance investigation of the interaction of CO with the surface of electron-rich magnesium oxide: Evidence for the CO- radical anion",

abstract = "Carbon monoxide is easily reduced at the surface of electron- rich magnesium oxide prepared by contacting the solid with vapours of low-ionisation-energy metals (such as magnesium or alkali metals). The process has been followed by electron paramagnetic resonance (EPR) spectroscopy. The first step of the interaction, occurring at about 100 K, is the formation of adsorbed CO- radical anions characterised by partial electron transfer from the solid to the molecule. At higher temperatures, this species reacts further with CO and surface electrons yielding long-chain diamagnetic oxocarbon anions, which are also formed on bare MgO via the C2O2- ethylenedione radical ion. A fraction of the C2O2- radical ions are stabilised at the surface and are observed even at room temperature.",

author = "Elio Giamello and Damien Murphy and Leonardo Marchese and Gianmario Martra and Adriano Zecchina",

year = "1993",

doi = "10.1039/FT9938903715",

language = "English",

volume = "89",

pages = "3715--3722",

journal = "Journal of the Chemical Society - Faraday Transactions",

issn = "0956-5000",

publisher = "Royal Society of Chemistry",

number = "20",

}

Electron paramagnetic resonance investigation of the interaction of CO with the surface of electron-rich magnesium oxide: Evidence for the CO^- radical anion. / Giamello, Elio; Murphy, Damien; Marchese, Leonardo et al.
In: Journal of the Chemical Society - Faraday Transactions, Vol. 89, No. 20, 1993, p. 3715-3722.

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

TY - JOUR

T1 - Electron paramagnetic resonance investigation of the interaction of CO with the surface of electron-rich magnesium oxide

T2 - Evidence for the CO- radical anion

AU - Giamello, Elio

AU - Murphy, Damien

AU - Marchese, Leonardo

AU - Martra, Gianmario

AU - Zecchina, Adriano

PY - 1993

Y1 - 1993

N2 - Carbon monoxide is easily reduced at the surface of electron- rich magnesium oxide prepared by contacting the solid with vapours of low-ionisation-energy metals (such as magnesium or alkali metals). The process has been followed by electron paramagnetic resonance (EPR) spectroscopy. The first step of the interaction, occurring at about 100 K, is the formation of adsorbed CO- radical anions characterised by partial electron transfer from the solid to the molecule. At higher temperatures, this species reacts further with CO and surface electrons yielding long-chain diamagnetic oxocarbon anions, which are also formed on bare MgO via the C2O2- ethylenedione radical ion. A fraction of the C2O2- radical ions are stabilised at the surface and are observed even at room temperature.

AB - Carbon monoxide is easily reduced at the surface of electron- rich magnesium oxide prepared by contacting the solid with vapours of low-ionisation-energy metals (such as magnesium or alkali metals). The process has been followed by electron paramagnetic resonance (EPR) spectroscopy. The first step of the interaction, occurring at about 100 K, is the formation of adsorbed CO- radical anions characterised by partial electron transfer from the solid to the molecule. At higher temperatures, this species reacts further with CO and surface electrons yielding long-chain diamagnetic oxocarbon anions, which are also formed on bare MgO via the C2O2- ethylenedione radical ion. A fraction of the C2O2- radical ions are stabilised at the surface and are observed even at room temperature.

UR - https://www.scopus.com/pages/publications/37049078371

U2 - 10.1039/FT9938903715

DO - 10.1039/FT9938903715

M3 - Article

SN - 0956-5000

VL - 89

SP - 3715

EP - 3722

JO - Journal of the Chemical Society - Faraday Transactions

JF - Journal of the Chemical Society - Faraday Transactions

IS - 20

ER -

Electron paramagnetic resonance investigation of the interaction of CO with the surface of electron-rich magnesium oxide: Evidence for the CO^- radical anion

Abstract

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