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Occupation of Surface States and Surface Band-Bending in Thermal Equilibrium

Professor Dr. Mönch, Winfried

Abstract Surface states at semiconductor surfaces exhibit donor or acceptor character. Depending on their position with respect to the Fermi level they are neutral or become charged either positively or negatively, respectively. A charging of surface states necessarily results in the formation of a space-charge layer beneath the surface and, in thermal equilibrium, the surface band-bending adjusts such as to satisfy the condition of surface charge neutrality.

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Occupation of Surface States and Surface Band-Bending in Thermal Equilibrium

Professor Dr. Mönch, Winfried

Abstract Surface states at semiconductor surfaces exhibit donor or acceptor character. Depending on their position with respect to the Fermi level they are neutral or become charged either positively or negatively, respectively. A charging of surface states necessarily results in the formation of a space-charge layer beneath the surface and, in thermal equilibrium, the surface band-bending adjusts such as to satisfy the condition of surface charge neutrality.

Occupation of Surface States and Surface Band-Bending in Thermal Equilibrium

Professor Dr. Mönch, Winfried

Abstract Surface states at semiconductor surfaces exhibit donor or acceptor character. Depending on their position with respect to the Fermi level they are neutral or become charged either positively or negatively, respectively. A charging of surface states necessarily results in the formation of a space-charge layer beneath the surface and, in thermal equilibrium, the surface band-bending adjusts such as to satisfy the condition of surface charge neutrality.

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Titel:

Occupation of Surface States and Surface Band-Bending in Thermal Equilibrium

Beteiligte:

Professor Dr. Mönch, Winfried (Autor:in)

Erschienen in:

Semiconductor Surfaces and Interfaces ; 59-65

Springer Series in Surface Sciences ; 26

Ausgabe:

Third, Revised Edition

Erscheinungsdatum:

01.01.2001

Format / Umfang:

7 pages

ISBN:

978-3-662-04459-9 , 978-3-642-08748-6

ISSN:

DOI:

https://doi.org/10.1007/978-3-662-04459-9_4

Medientyp:

Aufsatz/Kapitel (Buch)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Fermi Level , Surface State , Thermal Equilibrium , Depletion Layer , Semiconductor Surface Chemistry , Physical Chemistry , Optics and Electrodynamics , Electronics and Microelectronics, Instrumentation , Surfaces and Interfaces, Thin Films , Optical and Electronic Materials , Characterization and Evaluation of Materials

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