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Yang, H.,Boudrioua, O.,Mayne, A. J.,Comtet, G.,Dujardin, G.,Kuk, Y.,Sonnet, Ph.,Stauffer, L.,Nagarajan, S.,Gourdon, A. The Royal Society of Chemistry 2012 Physical chemistry chemical physics Vol.14 No.5
<P>Controlling the intrinsic optical and electronic properties of a single molecule adsorbed on a surface requires electronic decoupling of some molecular orbitals from the surface states. Scanning tunneling microscopy experiments and density functional theory calculations are used to study a perylene molecule derivative (DHH-PTCDI), adsorbed on the clean 3 × 3 reconstructed wide band gap silicon carbide surface (SiC(0001)-3 × 3). We find that the LUMO of the adsorbed molecule is invisible in <I>I</I>(<I>V</I>) spectra due to the absence of any surface or bulk states and that the HOMO has a very low saturation current in <I>I</I>(<I>z</I>) spectra. These results present a paradox that the molecular orbitals are electronically isolated from the surface of the wide band gap semiconductor even though strong chemical bonds are formed.</P> <P>Graphic Abstract</P><P>Organic molecule adsorption on the SiC surface forms strong chemical bonds but certain molecular orbitals are electronically decoupled from the substrate. <IMG SRC='http://pubs.rsc.org/services/images/RSCpubs.ePlatform.Service.FreeContent.ImageService.svc/ImageService/image/GA?id=c2cp23104b'> </P>