The role of molecular dipole moment, charge transfer, and Pauli repulsion in determining the workfunctionchange (DeltaPhi) at organic-metal interfaces has been elucidated by a combined experimental andtheoretical study of (CH3S)2/Au(111) and CH3S/Au(111). Comparison between experiment and theoryallows us to determine the origin of the interface dipole layer for both phases. For CH3S/Au(111), Delta Phican be ascribed almost entirely to the dipole moment of the CH3S layer. For (CH3S)2/Au(111), a Paulirepulsion mechanism occurs. The implications of these results on the interpretation of Delta Phi in the presenceof strongly and weakly adsorbed molecules is discussed.
Metal work function changes induced by organic adsorbates: A combined experimental and theoretical study / DE RENZI, Valentina; R., Rousseau; Marchetto, Diego; Biagi, Roberto; DEL PENNINO, Umberto; S., Scandolo. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - STAMPA. - 95:(2005), pp. 046804-1-046804-4. [10.1103/PhysRevLett.95.046804]
Metal work function changes induced by organic adsorbates: A combined experimental and theoretical study
DE RENZI, Valentina;MARCHETTO, Diego;BIAGI, Roberto;DEL PENNINO, Umberto;
2005
Abstract
The role of molecular dipole moment, charge transfer, and Pauli repulsion in determining the workfunctionchange (DeltaPhi) at organic-metal interfaces has been elucidated by a combined experimental andtheoretical study of (CH3S)2/Au(111) and CH3S/Au(111). Comparison between experiment and theoryallows us to determine the origin of the interface dipole layer for both phases. For CH3S/Au(111), Delta Phican be ascribed almost entirely to the dipole moment of the CH3S layer. For (CH3S)2/Au(111), a Paulirepulsion mechanism occurs. The implications of these results on the interpretation of Delta Phi in the presenceof strongly and weakly adsorbed molecules is discussed.
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