We present a method of producing a long-range ordered pentacene ultra-thin film on a benzenethiol organic buffer layer at saturation coverage, deposited on a cleaned. single crystalline Cu(100) surface, by means of ultra-high-vacuum organic molecular beam epitaxy. The growth morphology is investigated using in-situ low-energy electron-diffraction (LEED) and high-resolution UV photoelectron spectroscopy (HR-UPS). The change in Surface symmetry from c(4x4) at low coverage to c(2 x 6)/c(2 x 2) at saturation coverage of benzenethiol has been examined by LEED. The corresponding valence band modifications have been found by HR-UPS. Pentacene layers Lip to a thickness of 0.6nni possess exactly the same symmetry of the beneath organic buffer layer at saturation coverage, but with more intense and sharper spots as observed in the LEED patterns.
Growth of long range ordered pentacene/benzenethiol/Cu(100) heterostructure / A., Kanjilal; F., Bussolotti; F., Crispoldi; Beccari, Marco; DI CASTRO, Valeria; Betti, Maria Grazia; Mariani, Carlo. - In: JOURNAL DE PHYSIQUE IV. - ISSN 1155-4339. - 132:(2006), pp. 301-305. (Intervento presentato al convegno 10th International Conference on the Formation of Semiconductor Interfaces tenutosi a Aix en Provence, FRANCE nel JUL 03-08, 2005) [10.1051/jp4:2006132057].
Growth of long range ordered pentacene/benzenethiol/Cu(100) heterostructure
BECCARI, MARCO;DI CASTRO, Valeria;BETTI, Maria Grazia;MARIANI, CARLO
2006
Abstract
We present a method of producing a long-range ordered pentacene ultra-thin film on a benzenethiol organic buffer layer at saturation coverage, deposited on a cleaned. single crystalline Cu(100) surface, by means of ultra-high-vacuum organic molecular beam epitaxy. The growth morphology is investigated using in-situ low-energy electron-diffraction (LEED) and high-resolution UV photoelectron spectroscopy (HR-UPS). The change in Surface symmetry from c(4x4) at low coverage to c(2 x 6)/c(2 x 2) at saturation coverage of benzenethiol has been examined by LEED. The corresponding valence band modifications have been found by HR-UPS. Pentacene layers Lip to a thickness of 0.6nni possess exactly the same symmetry of the beneath organic buffer layer at saturation coverage, but with more intense and sharper spots as observed in the LEED patterns.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
