Charge Injection Rates in Hybrid Nanosilicon-Polythiophene Bulk Heterojunction Solar Cells

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abstract

The injection time for transfer of an electron from photoexcited dodecathiophene or polythiophene to a silicon nanocrystal (2.2 nm diameter) is calculated by computing the retarded Green's function for the system from the Hamiltonian and Kohn-Sham states produced by density functional calculations. We found that it can be of the order of 10-100 fs if the thiophene chain lies approximately parallel to the silicon surface. However, the electron injection time is 1-2 orders of magnitude longer if the oligothiophene chain lies perpendicular to the silicon surface. A chemisorption interaction between the thiophene chain and the nanocrystal provides a relatively small improvement (decrease) of injection times, much weaker than that achieved by enforcing the parallel arrangement of the chain with respect to the nanocrystal.

keywords

DYNAMICS; PSEUDOPOTENTIALS; SYSTEMS; MODEL

subject category

Chemistry; Science & Technology - Other Topics; Materials Science

authors

Carvalho, A; Martsinovich, N; Vieira, R; Troisi, A

our authors

no photo

Ricardo Vieira

Researcher

Groups

1 - Inorganic Functional Nanomaterials and Organic-Inorganic Hybrids

acknowledgements

This work was supported by the Marie Curie Program PEOPLE (SiNanoTune-REG/REA.P1(2010)D/22847), FCT (PEst-C/CTM/LA0025/2011), and COST NanoTP (MP0901). R.V. is supported by the Hybrid Solar project. A.C. thanks the University of Aveiro and I3N for computational resources, Dr. Manuel Barroso for technical support, and J. Coutinho for helpful discussions. N.M. and A.T. are grateful to ERC and EPSRC for supporting their research.

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Publication Details

type
Journal Article
year
2013
journal
JOURNAL OF PHYSICAL CHEMISTRY C
volume
117
publisher
AMER CHEMICAL SOC
issn
1932-7447
issue
1
digital object identifier
10.1021/jp3095825
web of science article identifier
WOS:000313220700015

Journal Metrics (JCR 2019)

Journal Impact Factor
4.189
Journal Impact Factor (5 yrs)
4.404
category normalized journal percentile
64.576

Citations

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