D. I. Dimov scite author profile

We compare the molecular films of three different isomers of closo-dicarbadodecaborane (orthocarborane (1,2-C2B10H12), metacarborane (1,7-C2B10H12), paracarborane (1,12-C2B10H12)) and two related icosahedral cage molecules, 1-phospha-2-carbadodecaborane (1,2-PCB10H11) and 1-phospha-7-carbadodecaborane (1,7-PCB10H11) adsorbed on a variety of substrates. While the experimental electronic structure from combined photoemission and inverse photoemission studies of the molecular films are in good agreement with semiempirical calculations for the isolated molecule, there is a shift in the chemical potential for each molecule. The experimental position of the molecular chemical potential implicates an influence of both interface and adsorbate dipole.

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The Electronic Structure of 1,7-PCB₁₀H₁₁ Molecular Films

Balaz

Boag

Platt

et al. 2006

MRS Proc.

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The electronic structure and highest occupied to lowest unoccupied molecular orbital gap of undoped films of the molecular icosahedra of closo-1-phospha-7-carbadodecaborane (1,7-PCB10H11, meta-phosphacarborane) are reported. For 1,7-PCB10H11 adsorbed on Au and Ag, the Fermi level is placed closer to the lowest unoccupied molecular orbital than has been observed with closo-1-phospha-2-carbadodecaborane (1,2-PCB10H11, ortho-phosphacarborane) adsorbed on Au and Ag.

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D. I. Dimov

The electronic structure of 1,2-PCB10H11 molecular films: a precursor to a novel semiconductor

The Influence of the Molecular Dipole on the Electronic Structure of Isomeric Icosahedral Dicarbadodecaborane and Phosphacarbadodecaborane Molecular Films

The Electronic Structure of 1,7-PCB₁₀H₁₁ Molecular Films

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D. I. Dimov

The electronic structure of 1,2-PCB10H11 molecular films: a precursor to a novel semiconductor

The Influence of the Molecular Dipole on the Electronic Structure of Isomeric Icosahedral Dicarbadodecaborane and Phosphacarbadodecaborane Molecular Films

The Electronic Structure of 1,7-PCB10H11 Molecular Films

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Product

Resources

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The Electronic Structure of 1,7-PCB₁₀H₁₁ Molecular Films