Orbital-resolved observation of singlet fission

Neef, Alexander; Beaulieu, Samuel; Hammer, Sebastian; Dong, Shuo; Maklar, Julian; Pincelli, Tommaso; Xian, R. Patrick; Wolf, Martin; Rettig, Laurenz; Pflaum, Jens; Ernstorfer, Ralph

doi:10.1038/s41586-023-05814-1

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Orbital-resolved observation of singlet fission

Neef, A., Beaulieu, S., Hammer, S., Dong, S., Maklar, J., Pincelli, T., et al. (2023). Orbital-resolved observation of singlet fission. Nature, 616(7956), 275-279. doi:10.1038/s41586-023-05814-1.

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Item Permalink: https://hdl.handle.net/21.11116/0000-000D-0CC6-7 Version Permalink: https://hdl.handle.net/21.11116/0000-000D-0CC9-4

Genre: Journal Article

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Creators:
Neef, Alexander¹, Author
Beaulieu, Samuel¹, Author
Hammer, Sebastian, Author
Dong, Shuo¹, Author
Maklar, Julian¹, Author
Pincelli, Tommaso¹, Author
Xian, R. Patrick¹, Author
Wolf, Martin¹, Author
Rettig, Laurenz¹, Author
Pflaum, Jens, Author
Ernstorfer, Ralph¹, Author

Affiliations:
1Physical Chemistry, Fritz Haber Institute, Max Planck Society, ou_634546

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Abstract: Singlet fission may boost photovoltaic efficiency by transforming a singlet exciton into two triplet excitons and thereby doubling the number of excited charge carriers. The primary step of singlet fission is the ultrafast creation of the correlated triplet pair. Whereas several mechanisms have been proposed to explain this step, none has emerged as a consensus. The challenge lies in tracking the transient excitonic states. Here we use time- and angle-resolved photoemission spectroscopy to observe the primary step of singlet fission in crystalline pentacene. Our results indicate a charge-transfer mediated mechanism with a hybridization of Frenkel and charge-transfer states in the lowest bright singlet exciton. We gained intimate knowledge about the localization and the orbital character of the exciton wave functions recorded in momentum maps. This allowed us to directly compare the localization of singlet and bitriplet excitons and decompose energetically overlapping states on the basis of their orbital character. Orbital- and localization-resolved many-body dynamics promise deep insights into the mechanics governing molecular systems and topological materials.

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Language(s): eng - English

Dates: Submitted: 2022-03-28Accepted: 2023-02-06Published Online: 2023-04-12

Publication Status: Published online

Pages: 5

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Rev. Type: Peer

Identifiers: DOI: 10.1038/s41586-023-05814-1

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Project name : FLATLAND - Electron-lattice-spin correlations and many-body phenomena in 2D semiconductors and related heterostructures

Grant ID : 682843

Funding program : Horizon 2020 (H2020)

Funding organization : European Commission (EC)

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Title: Nature

Abbreviation : Nature

Source Genre: Journal

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Publ. Info: London : Nature Publishing Group

Pages: 5 Volume / Issue: 616 (7956) Sequence Number: - Start / End Page: 275 - 279 Identifier: ISSN: 0028-0836
CoNE: https://pure.mpg.de/cone/journals/resource/954925427238