Dipole formation at metal/PTCDA interfaces: Role of the Charge NeutralityLevel

H. Vázquez; R. Oszwaldowski; P. Pou; J. Ortega; R. Pérez; F. Flores; A. Kahn

doi:10.1209/epl/i2003-10131-2

Dipole formation at metal/PTCDA interfaces: Role of the Charge Neutrality Level

H. Vázquez¹, R. Oszwaldowski¹, P. Pou¹, J. Ortega¹, R. Pérez¹, F. Flores¹ and A. Kahn²

2004 EDP Sciences
Europhysics Letters, Volume 65, Number 6 Citation H. Vázquez et al 2004 EPL 65 802 DOI 10.1209/epl/i2003-10131-2

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¹ Departamento de Física Teórica de la Materia Condensada Universidad Autónoma de Madrid - E-28049 Madrid, Spain

² Department of Electrical Engineering, Princeton University Princeton, NJ 08544, USA

Dates

Received 10 June 2003
Accepted 22 January 2004

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Abstract

The formation of a metal/PTCDA (3, 4, 9, 10-perylenetetracarboxylic dianhydride) interface barrier is analyzed using weak-chemisorption theory. The electronic structure of the uncoupled PTCDA molecule and of the metal surface is calculated. Then, the induced density of interface states is obtained as a function of these two electronic structures and the interaction between both systems. This induced density of states is found to be large enough (even if the metal/PTCDA interaction is weak) for the definition of a Charge Neutrality Level for PTCDA, located 2.45 eV above the highest occupied molecular orbital. We conclude that the metal/PTCDA interface molecular level alignment is due to the electrostatic dipole created by the charge transfer between the two solids.

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