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ICAMS Seminar by P. Kratzer

15.11.2010

Dr. Peter Kratzer
Faculty of Physics
University Duisburg-Essen

Optimizing electronic properties of metal and semiconductor alloys using DFT + cluster expansion

Abstract: Demands for materials with peculiar properties, e.g. in magneto-electronics or photovoltaics, call for quantum-mechanical modeling of complex atomic structures. Here we employ density-functional (DFT) calculations in combination with the cluster expansion (CE) of motifs on a lattice to bridge the gap between macroscopic properties and the atomic structure of alloys. Two examples:

Magnetic memory devices exploiting the tunneling magneto-resistance (TMR) effect depend crucially on the spin polarization of the electrodes. Some Heusler alloys, e.g. Co2MnSi, if perfectly ordered, are ferromagnetic half-metals with (ideally) 100% spin polarization. In practice, however, their performance is limited by atomic disorder and deviations from perfect stoichiometry, but also by interface states at the tunneling barrier. We use ab initio thermodynamics in conjunction with CE to show that excess manganese, both in the alloy and at the interface, helps to preserve the desired halfmetallic property.

In thin-film solar cells with CuInxGa1-xSe2 absorber, the efficiency is limited by the homogeneity of the alloy. We use Metropolis Monte Carlo simulations employing a DFT-based CE to show that annealing at temperatures above 400 K is required to induce entropic mixing of In and Ga. Ga-rich alloys, while showing a good match of their band gap to the solar spectrum, are more prone to segregation, which presently limits their efficient use in solar cells.

The seminar takes place at 4:30 p.m. in the ICAMS seminar room UHW 11/1102, Stiepeler Straße 129, 44801 Bochum.

For further information please contact Dr. Steffen Brinckmann, steffen.brinckmann@rub.de.

Download PDF: abstractKratzer.pdf
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