Reactions of Atoms with Magnesium Oxide Surfaces Studied in a Flow System by ESR‐Spectroscopy

Svejda, P.; Haul, R.; Mihelcic, D.; Schindler, R. N.

doi:10.1002/bbpc.19750790114

Ber Bunsenges Phys Chem

1975

DOI: 10.1002/bbpc.19750790114

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Reactions of Atoms with Magnesium Oxide Surfaces Studied in a Flow System by ESR‐Spectroscopy

P. Svejda

R. Haul

D. Mihelcic

et al.

Abstract: Energy transfer from excited metastable He‐ and Ar‐atoms to MgO surfaces as well as reactions of atomic hydrogen, oxygen and nitrogen respectively with these surfaces in a flow system produce paramagnetic centers which are detected in situ by ESR. The signals observed are attributed to S‐ and SH‐centers as well as to O 3−‐radicals and to Vb‐type centers of clustered O‐‐radicals. The reaction of S‐centers with N2O‐gas yielding O 3− was observed. Mechanisms for the interaction of excited rare gas atoms and of H‐… Show more

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Cited by 12 publications

References 36 publications

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Reactions of Oxygen Atoms with Zeolite‐4A Studied in a Flow System by ESR‐Spectroscopy

Svejda

Hermerschmidt

1976

Ber Bunsenges Phys Chem

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During and after the reaction of O‐atoms with zeolite‐4A two paramagnetic centers of equal concentration are observed. One species is identified as an O2−radical adsorbed on a silicium atom in the zeolite surface. The other center, discussed here for the first time, is described as an O−‐radical stabilized on an aluminum atom of the zeolite structure. The ESR‐data of that new center (g⊥ = 2.012, g∥ = 2.007, aiso = 15.1 Gauss) support that interpretation rather well. A mechanism for the formation of both paramagnetic species is suggested.

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Reactions of Oxygen Atoms with Zeolite‐4A Studied in a Flow System by ESR‐Spectroscopy

Svejda

Hermerschmidt

1976

Ber Bunsenges Phys Chem

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ESR‐Study of the Interaction of Oxygen Atoms with Clean Titanium Dioxide Surfaces

Svejda¹,

Hartmann²,

Haul³

1976

Ber Bunsenges Phys Chem

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Adsorption i Elektronenspinresonanz i Freie Radikale I Katalyse i Oberflachenerscheinungen Pure titanium dioxide, rutile, with well developed crystal faces was heated after pretreatment with oxygen in an ultrahigh vacuum system ( p i lo-' Torr) up to 1000°C. None of the ESR-signals were observed reported in the literature for less rigorously cleaned high surface area samples. This finding is discussed on the basis of the thermal disorder equilibrium. Reactions with oxygen atoms resulted in the formation of an adsorbed 0; -radical. This radical species occurs only after a few reaction steps for which a mechanism is discussed. Changes of the electronic energy levels on adsorption of the 0;-radical are evaluated from the g-tensor components (gl = 2.019, gz = 2.009, g, = 2.003).Reines Titandioxid, Rutil, mit gut ausgebildeten Kristallflachen, wurde nach Vorbehandlung mit Sauerstoff in einem Ultrahochvakuumsystem ( p < 10-' Torr) bis 1000°C erhitzt. Keines der ESR-Signale wurde beobachtet, die in der Literatur fiir weniger gut gereinigte Proben mit grol3er Oberfllche beschrieben wurden. Dieser Befund wurde auf der Basis des thermischen Fehlordnungsgleichgewichtes diskutiert.Reaktionen mit Sauerstoffatomen fiihrten zur Bildung eines adsorbierten 0; -Radikals. Dieses Radikal entsteht jedoch erst nach einigen Reaktionsschritten, wofur ein Mechanismus diskutiert wird. Anderungen der elektronischen Energieniveaus bei der Adsorption des 0,-Radikals werden aus den g-Tensor-Komponenten (gl = 2.019, 9, = 2.009, g3 = 2.003) bestimmt.

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ESR Studies on the Interaction of Molecular/Atomic Oxygen and Ethylene with Silver Zeolites

Hermerschmidt

Haul

1981

Ber Bunsenges Phys Chem

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Reactions of Atoms with Magnesium Oxide Surfaces Studied in a Flow System by ESR‐Spectroscopy

Cited by 12 publications

References 36 publications

Reactions of Oxygen Atoms with Zeolite‐4A Studied in a Flow System by ESR‐Spectroscopy

Reactions of Oxygen Atoms with Zeolite‐4A Studied in a Flow System by ESR‐Spectroscopy

ESR‐Study of the Interaction of Oxygen Atoms with Clean Titanium Dioxide Surfaces

ESR Studies on the Interaction of Molecular/Atomic Oxygen and Ethylene with Silver Zeolites

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