Charge Separation Pathways in a Highly Efficient Polymer:Fullerene Solar Cell Material

Paraecattil, Arun Aby
Banerji, Natalie

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Publication date

January 2014

DOI

10.1021/ja410340g

Publisher

American Chemical Society (ACS)

Abstract

PBDTTPD is one of the best conjugated polymers for solar cell applications (up to 8.5% efficiency). We have investigated the dynamics of charge generation in the blend with fullerene (PCBM) and addressed highly relevant topics such as the role of bulk heterojunction structure, fullerene excitation, and excess energy. We show that there are multiple charge separation pathways. These include electron transfer from photoexcited polymer, hole transfer from photoexcited PCBM, prompt (<100 fs) charge generation in intimately mixed polymer:fullerene regions (which can occur from hot states), as well as slower electron and hole transfer from excitons formed in pure PBDTTPD or PCBM domains (diffusion to an interface is necessary): Very interestingly...

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Charge Separation Pathways in a Highly Efficient Polymer:Fullerene Solar Cell Material

Abstract

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Charge Separation Pathways in a Highly Efficient Polymer:Fullerene Solar Cell Material

Abstract

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