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Chemisorption-induced gap states at organic-metal interfaces: benzenethiol and benzeneselenol on metal surfaces.

Physical chemistry chemical physics : PCCP (2012-02-18)
Masaru Aoki, Toyohiro Kamada, Keita Sasaki, Shigeru Masuda, Yoshitada Morikawa
RÉSUMÉ

Valence electronic states of benzenethiol (C(6)H(5)SH) and benzeneselenol (C(6)H(5)SeH) in the gas, condensed, and chemisorbed phases were examined by ultraviolet photoemission spectroscopy, metastable atom electron spectroscopy, and first-principles calculations using density functional theory. C(6)H(5)SH is chemisorbed on Pt(111) and Au(111) substrates to form a thiolate (C(6)H(5)S), and C(6)H(5)SeH is bound on Pt(111) substrate to form a selenolate (C(6)H(5)Se). In all cases, chemisorption-induced gap states (CIGSs) appear just below the Fermi level (E(F)) of the substrate, yielding a metallic character around the anchor S and Se atoms. However, the local density at E(F) decreases considerably from the anchor atom to the benzene ring, because strong coupling between benzene π(1e(1g)) and S 3p(or Se 4p) in free molecules is apparently lifted upon chemisorption. In other words, thiolates and selenolates (especially C(6)H(5)S on Au(111)) act as poor mediators of the metal wave functions at E(F), which is closely related to electric conductance in the relevant metal-organic-metal junctions at zero bias.

MATÉRIAUX
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Description du produit

Sigma-Aldrich
Thiophenol, 97%
Sigma-Aldrich
Thiophenol, ≥99%
Sigma-Aldrich
Sodium thiophenolate, technical grade, 90%
Supelco
Thiophenol, analytical standard