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RESEARCH PRODUCT
Impacts of Copper Position on the Electronic Structure of [Au25-xCux(SH)18]− Nanoclusters
Michael J. HartmannDaniel S. LambrechtJill E. MillstoneHannu Häkkinensubject
Organic electronicsta114ChemistryHeteroatomElectronic structureSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsNanoclustersElectronegativityGeneral EnergyComputational chemistryChemical physicsmixed metal nanoclustersPhysics::Atomic and Molecular ClustersCluster (physics)Level structureDensity functional theoryPhysical and Theoretical Chemistryta116description
Here, we use density functional theory to model the impact of heteroatom position on the optoelectronic properties of mixed metal nanoclusters. First, we consider the well-described [Au25(SH)18]− motif, and substitute Cu atoms at the three geometrically unique positions within the cluster. These clusters are atomically precise and show an electronic structure that is a function of both composition and heteroatom position. We then model clusters containing Cu substitutions at two positions, and demonstrate an additional and significant impact from heteroatom proximity with respect to one another. For each system, we report the formation energy, HOMO–LUMO gap, and energy level structure, and suggest how trends in these parameters may be explained using classic atomic descriptors such as electronegativity, analogous to design principles widely used in the field of organic electronics. Further, we use linear response time-dependent density functional theory to model the absorption behavior of each system in o...
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-04-03 | Journal of Physical Chemistry C |