2008
DOI: 10.1038/nmat2100
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Tuning fulleride electronic structure and molecular ordering via variable layer index

Abstract: The ability to tune competing interactions in the fullerides arises from advances in our ability to grow well-controlled heterogeneous molecular films. Here we describe measurements on potassium doped C 60 (K x C 60 ) ultra-thin films having variable thickness from one to three layers (layer index i = 1, 2, and 3) for three specific doping concentrations (x = 3, 4, and 5). Fig. 1a displays a scanning tunneling microscope (STM) topograph of a representative K x C 60 multilayer on Au(111), where the color scale … Show more

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Cited by 58 publications
(66 citation statements)
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“…and shape of the features in the spectra of pristine C 60 are in agreement with published work, testifying the good alignment of the Fermi level in our spectra and that our film is thick enough so that screening from the metallic substrate [41] is negligible. The experimental HOMO-LUMO energy separation is 3.6 eV as previously observed [36,52,53].…”
Section: Fig 1(a) Shows a Schematics Of Pes And Ipes Processes Occursupporting
confidence: 91%
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“…and shape of the features in the spectra of pristine C 60 are in agreement with published work, testifying the good alignment of the Fermi level in our spectra and that our film is thick enough so that screening from the metallic substrate [41] is negligible. The experimental HOMO-LUMO energy separation is 3.6 eV as previously observed [36,52,53].…”
Section: Fig 1(a) Shows a Schematics Of Pes And Ipes Processes Occursupporting
confidence: 91%
“…The relatively low values of U found in open-shell compounds (RbC 60 , Cs 4 C 60 , K 3 C 60 ) thus entail even smaller correlation energies in the bulk of these systems. Motivated by these findings and by a recent study of potassium fulleride thin films [41], we have investigated to what extent molecular polarization screening can account for our observations. We assume the contribution of molecular polarization screening only, as the atomic polarizability of the alkali counter-ions is negligible in comparison to that of C 60 species.…”
Section: Discussionmentioning
confidence: 80%
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“…Of particular merit is the work of Crommie and co-workers who, in a series of papers [30,5,38,39], have recorded some very intriguing images and spectra of a series of doped C 60 molecules. In one experiment [on Ag(111)], these workers were able to use the STM tip to progressively attach/detach potassium atoms to individual C 60 molecules and subsequently record the scanning tunnelling spectroscopy data shown in Fig.…”
Section: Stm Imaging Of Fullerenes: An Overviewmentioning
confidence: 99%