Activated singlet exciton fission in a semiconducting polymer

Andrew J. Musser; Mohammed Al-Hashimi; Margherita Maiuri; Daniele Brida; Martin Heeney; Giulio Cerullo; Richard H. Friend; Jenny Clark

doi:10.1021/ja405427j

Activated singlet exciton fission in a semiconducting polymer

Andrew J. Musser^*, Mohammed Al-Hashimi, Margherita Maiuri, Daniele Brida, Martin Heeney, Giulio Cerullo, Richard H. Friend, Jenny Clark

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

145 Citations (Scopus)

Abstract

Singlet exciton fission is a spin-allowed process to generate two triplet excitons from a single absorbed photon. This phenomenon offers great potential in organic photovoltaics, but the mechanism remains poorly understood. Most reports to date have addressed intermolecular fission within small-molecular crystals. However, through appropriate chemical design chromophores capable of intramolecular fission can also be produced. Here we directly observe sub-100 fs activated singlet fission in a semiconducting poly(thienylenevinylene). We demonstrate that fission proceeds directly from the initial 1B_u exciton, contrary to current models that involve the lower-lying 2A_g exciton. In solution, the generated triplet pairs rapidly recombine and decay through the 2A_g state. In films, exciton diffusion breaks this symmetry and we observe long-lived triplets which form charge-transfer states in photovoltaic blends.

Original language	English
Pages (from-to)	12747-12754
Number of pages	8
Journal	Journal of the American Chemical Society
Volume	135
Issue number	34
DOIs	https://doi.org/10.1021/ja405427j
Publication status	Published - 28 Aug 2013
Externally published	Yes

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title = "Activated singlet exciton fission in a semiconducting polymer",

abstract = "Singlet exciton fission is a spin-allowed process to generate two triplet excitons from a single absorbed photon. This phenomenon offers great potential in organic photovoltaics, but the mechanism remains poorly understood. Most reports to date have addressed intermolecular fission within small-molecular crystals. However, through appropriate chemical design chromophores capable of intramolecular fission can also be produced. Here we directly observe sub-100 fs activated singlet fission in a semiconducting poly(thienylenevinylene). We demonstrate that fission proceeds directly from the initial 1Bu exciton, contrary to current models that involve the lower-lying 2Ag exciton. In solution, the generated triplet pairs rapidly recombine and decay through the 2Ag state. In films, exciton diffusion breaks this symmetry and we observe long-lived triplets which form charge-transfer states in photovoltaic blends.",

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T1 - Activated singlet exciton fission in a semiconducting polymer

AU - Musser, Andrew J.

AU - Al-Hashimi, Mohammed

AU - Maiuri, Margherita

AU - Brida, Daniele

AU - Heeney, Martin

AU - Cerullo, Giulio

AU - Friend, Richard H.

AU - Clark, Jenny

PY - 2013/8/28

Y1 - 2013/8/28

N2 - Singlet exciton fission is a spin-allowed process to generate two triplet excitons from a single absorbed photon. This phenomenon offers great potential in organic photovoltaics, but the mechanism remains poorly understood. Most reports to date have addressed intermolecular fission within small-molecular crystals. However, through appropriate chemical design chromophores capable of intramolecular fission can also be produced. Here we directly observe sub-100 fs activated singlet fission in a semiconducting poly(thienylenevinylene). We demonstrate that fission proceeds directly from the initial 1Bu exciton, contrary to current models that involve the lower-lying 2Ag exciton. In solution, the generated triplet pairs rapidly recombine and decay through the 2Ag state. In films, exciton diffusion breaks this symmetry and we observe long-lived triplets which form charge-transfer states in photovoltaic blends.

AB - Singlet exciton fission is a spin-allowed process to generate two triplet excitons from a single absorbed photon. This phenomenon offers great potential in organic photovoltaics, but the mechanism remains poorly understood. Most reports to date have addressed intermolecular fission within small-molecular crystals. However, through appropriate chemical design chromophores capable of intramolecular fission can also be produced. Here we directly observe sub-100 fs activated singlet fission in a semiconducting poly(thienylenevinylene). We demonstrate that fission proceeds directly from the initial 1Bu exciton, contrary to current models that involve the lower-lying 2Ag exciton. In solution, the generated triplet pairs rapidly recombine and decay through the 2Ag state. In films, exciton diffusion breaks this symmetry and we observe long-lived triplets which form charge-transfer states in photovoltaic blends.

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DO - 10.1021/ja405427j

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Activated singlet exciton fission in a semiconducting polymer

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