Direct observation of ultrafast singlet exciton fission in three dimensions

Arjun Ashoka; Nicolas Gauriot; Aswathy V. Girija; Nipun Sawhney; Alexander J. Sneyd; Kenji Watanabe; Takashi Taniguchi; Jooyoung Sung; Christoph Schnedermann; Akshay Rao

doi:10.1038/s41467-022-33647-5

ジャーナル論文 Direct observation of ultrafast singlet exciton fission in three dimensions

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Arjun Ashoka, Nicolas Gauriot, Aswathy V. Girija, Nipun Sawhney, Alexander J. Sneyd, Kenji Watanabe, Takashi Taniguchi, Jooyoung Sung, Christoph Schnedermann, Akshay Rao. Direct observation of ultrafast singlet exciton fission in three dimensions. Nature Communications. 2022, 13 (1), 5963. https://doi.org/10.1038/s41467-022-33647-5

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(abstract)

We present ultrafast quantitative interferometric pump-probe microscopy capable of tracking of photoexcitations in three dimensions with sub 5 nm spatial precision through retrieval of the full photoinduced transient complex refractive index with 15 fs temporal resolution. Using this we inves- tigate the quantum coherent photophysical process of ultrafast singlet exciton fission. Measurements on microcrystalline pentacene films grown on glass (SiO2) and boron nitride (hBN) reveal a 25 nm, 70 fs expansion of the joint-density-of-states along the crystal a,c-axes accompanied by a 6 nm, 115 fs contraction along the crystal b-axis. We propose that photogenerated singlet excitons un- dergo fission to correlated triplets pairs along the crystal a,c-axes within 70 fs and are subsequently decoupled into free-triplets along the crystal b-axes within 200 fs.

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