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Origin and Processes of O-Cu(001) and the O-Cu(110) Biphase Ordering
Journal article   Peer reviewed

Origin and Processes of O-Cu(001) and the O-Cu(110) Biphase Ordering

C.Q. Sun
International Journal of Modern Physics B, Vol.12(09), pp.951-964
1998
DOI: https://doi.org/10.1142/S0217979298000533
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Abstract

From the perspective of bond forming, origin of phase-formation on the O-Cu(001) and the O-Cu(110)is analyzed. It is suggested that the formation of the O-1 and the hybridized-O-2 gives in nature the c(2 × 2)-O and subsequently, the phase, on the Cu(001). The re-ordering of the primary Cu2O units transforms the Cu(110)-(2×1)-O into the c(6 × 2)-O. As consequences of the O-2-hybridization, the Cu(001)- differs from the Cu(110)-(2×1)-O in origin by nothing more than that the -O-Cu-chain rotates 45° to fit itself to the coordination-surrounding. It proposed that one metal atom may donate more than one-electron to different oxygen atoms. However, one oxygen, with two directional bonding orbitals and two nonbonding orbitals, can never get more than one-electron from a specific metal atom. The sp-hybridization of oxygen cannot occur before its two bonding orbitals are fully occupied. Besides the ionization of oxygen and metal atoms, the polarization of the metal and the hybridization of O-2 dominate the processes of oxidation and the behavior of the oxides. Further considerations are required regarding how the O-coverage reversibly varies the valence-state of oxygen, and how the coverage and temperature reassemble the Cu2O on the Cu(110).

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11 Times Cited - Web of Science

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Citation topics
2 Chemistry
2.41 Catalysts
2.41.25 Catalytic Oxidation
Web Of Science research areas
Physics, Applied
Physics, Condensed Matter
Physics, Mathematical
ESI research areas
Physics
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