ZhETF, Vol. 148,
No. 6,
p. 1155 (December 2015)
(English translation - JETP,
Vol. 121, No. 6,
p. 1015,
December 2015
available online at www.springer.com
)
PBE-DFT THEORETICAL STUDY OF ORGANIC PHOTOVOLTAIC MATERIALS BASED ON THIOPHENE WITH 1D AND 2D PERIODIC BOUNDARY CONDITIONS
Sail K., Bassou G., Gafour M.H., Miloua F.
Received: May 6, 2015
DOI: 10.7868/S0044451015120111
Conjugated organic systems such as thiophene are interesting topics in the field of organic solar cells. We theoretically investigate π-conjugated polymers constituted by n units (n=1-11) based on the thiophene (Tn) molecule. The computations of the geometries and electronic structures of these compounds are performed using the density functional theory (DFT) at the 6-31 G(d,p) level of theory and the Perdew-Burke-Eenzerhof (PBE) formulation of the generalized gradient approximation with periodic boundary conditions (PBCs) in one (1D) and two (2D) dimensions. Moreover, the electronic properties (HOCO, LUCO, Egap, Voc, and Vbi) are determined from 1D and 2D PBC to understand the effect of the number of rings in polythiophene. The absorption properties - excitation energies (Eex), the maximal absorption wavelength (λmax), oscillator strengths, and light harvesting efficiency are studied using the time-dependent DFT method. Our studies show that changing the number of thiophene units can effectively modulate the electronic and optical properties. On the other hand, our work demonstrates the efficiency of theoretical calculation in the PBCs.
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