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MSE/ME Special Seminar on Computational Materials Science and Materials Modeling - Noa Marom
Monday, April 8, 2013
11:00 a.m.
Rm. 2164, Martin Hall (DeWalt Seminar Room)
For More Information:
Annette Mateus
301 405 4799
amateus@umd.edu

Quantum Theory for Solar Cell Materials

Noa Marom
Institute for Computational Engineering & Science (ICES
The University of Texas at Austin
Austin, Texas 78712-1229

The development of solar cells is driven by the need for clean and sustainable energy. Organic and dye sensitized cells (DSC), are considered as promising alternatives for traditional single crystal silicon cells, particularly for large area, low cost applications. However, the efficiencies of such cells are still far from their theoretical limit.

First-principles quantum mechanical simulations may be used for computer-aided design of new materials, material combinations, and nano-structures for more efficient organic and dye-sensitized cells. To this end, it is important to obtain an accurate description of the electronic structure, including the fundamental gaps and energy level alignment at interfaces. This requires a treatment beyond ground-state density functional theory (DFT). Within the framework of many-body perturbation theory (MBPT), these properties may be calculated using the GW approximation, where G is the one-particle Green's function and W is the dynamically screened Coulomb potential.

In this talk I will provide an introduction to GW methods and demonstrate their applications to the components of organic and dye-sensitized solar cells: TiO2 clusters [1], organic semiconductors [2,3], dyes [4,5], and dye-sensitized TiO2 clusters [6,7].

References:

[1] N. Marom, M. Kim, and J. R. Chelikowsky, Phys. Rev. Lett. 108,106801 (2012)

[2] T. Körzdörfer and N. Marom, PRB 86, 041110(R) (2012)

[3] N. Marom, F. Caruso, X. Ren, O. Hofmann, T. Körzdörfer, J. R.Chelikowsky, A. Rubio, M. Scheffler, and P. Rinke, PRB 86 245127 (2012)

[4] N. Marom, X. Ren, J. E. Moussa, J. R. Chelikowsky, and L. Kronik, Phys. Rev. B 84, 195143 (2011)

[5] E. Salomon, P. Amsalem, N. Marom, L. Kronik, N. Koch, and T. Angot, Phys. Rev. B 87 075407 (2013)

[6] N. Marom, J. E. Moussa, X. Ren, A. Tkatchenko, and J. R. Chelikowsky, Phys. Rev. B 84, 245115 (2011)

[7] N. Marom, T. Körzdörfer, X. Ren, A. Tkatchenko, and J.R. Chelikowsky, to be published

This Event is For: Graduate • Faculty

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