First principles modeling of panchromatic dyes for solar cells applications.

Rosa Di Felice; Arrigo Calzolari; Rui Dong; M. Buongiorno-Nardelli

First principles modeling of panchromatic dyes for solar cells applications.

ORAL

Abstract

The state-of-the-art dye in Gr\"atzel solar cells, N719, exhibits a total solar-to-electric conversion efficiency of 11.2\%. However, it severely lacks absorption in the red and the near infrared regions of the electromagnetic spectrum, which represent more than 70\% of the solar radiation spectrum. Using calculations from first principles in the time-dependent domain, we have studied the electronic and optical response of a novel class of panchromatic sensitizers that can harvest solar energy efficiently across the visible and near infrared regions, which have been recently synthesized [A. El-Shafei, M. Hussain, A. Atiq, A. Islam, and L. Han, J. Mater. Chem. {\bf 22}, 24048 (2012)]. Our calculations show that, by tuning the properties of antenna groups, one can achieve a substantial improvement of the optical properties.

March 19, 2013, 2:03 PM – March 19, 2013, 2:15 PM

Authors

Rosa Di Felice
- Centro S3, CNR Istituto di Nanoscienze, Modena, Italy
Arrigo Calzolari
- Istituto Nanoscienze CNR-NANO-S3, Modena, Italy
- Centro S3 - CNR-NANO, Modena, Italy
- Istituto Nanoscienze, CNR-NANO S3 Center I-41125, Modena Italy
- Istituto Nanoscienze CNR-NANO-S3
- CNR-NANO, Instituto Nanoscienze, Modena, Italy
- Centro S3, CNR Istituto di Nanoscienze, Modena, Italy
Rui Dong
- North Carolina State University
- North Carolina State Univ.
M. Buongiorno-Nardelli
- Department of Physics, University of North Texas
- Department of Physics and Department of Chemistry, University of North Texas, Denton, TX 76203
- University of North Texas, Denton, TX
- University of North Texas
- Department of Physics and Department of Chemistry, University of North Texas
- Univ. of North Texas and Oak Ridge National Laboratory