Issue 13, 2013

Reassessing the use of one-electron energetics in the design and characterization of organic photovoltaics

Abstract

We present results showing that common approximations employed in the design and characterization of organic photovoltaic (OPV) materials can lead to significant errors in widely adopted design rules. First, we assess the validity of the common practice of using HOMO and LUMO energies in place of formal redox potentials to characterize organic semiconductors. We trace the formal justification for this practice and survey its limits in a way that should be useful for those entering the field. We find that while the HOMO and LUMO energies represent useful descriptive approximations, they are too quantitatively inaccurate for predictive material design. Second, we show that the excitonic nature of common organic semiconductors makes it paramount to distinguish between the optical and electronic bandgaps for materials design. Our analysis shows that the usefulness of the “LUMO–LUMO Offset” as a design parameter for exciton dissociation is directly tied to the accuracy of the one-electron approximation. In particular, our results suggest that the use of the “LUMO–LUMO Offset” as a measure of the driving force for exciton dissociation leads to a systematic overestimation that should be cautiously avoided.

Graphical abstract: Reassessing the use of one-electron energetics in the design and characterization of organic photovoltaics

Article information

Article type
Paper
Submitted
30 Jan 2013
Accepted
01 Feb 2013
First published
01 Feb 2013

Phys. Chem. Chem. Phys., 2013,15, 4538-4547

Reassessing the use of one-electron energetics in the design and characterization of organic photovoltaics

B. M. Savoie, N. E. Jackson, T. J. Marks and M. A. Ratner, Phys. Chem. Chem. Phys., 2013, 15, 4538 DOI: 10.1039/C3CP50438G

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