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Literature DB >> 24240240

Efficient charge generation by relaxed charge-transfer states at organic interfaces.

Koen Vandewal¹, Steve Albrecht², Eric T Hoke¹, Kenneth R Graham³, Johannes Widmer⁴, Jessica D Douglas⁵, Marcel Schubert², William R Mateker¹, Jason T Bloking¹, George F Burkhard¹, Alan Sellinger⁶, Jean M J Fréchet⁷, Aram Amassian⁸, Moritz K Riede⁹, Michael D McGehee¹, Dieter Neher², Alberto Salleo¹.

Abstract

Interfaces between organic electron-donating (D) and electron-accepting (A) materials have the ability to generate charge carriers on illumination. Efficient organic solar cells require a high yield for this process, combined with a minimum of energy losses. Here, we investigate the role of the lowest energy emissive interfacial charge-transfer state (CT1) in the charge generation process. We measure the quantum yield and the electric field dependence of charge generation on excitation of the charge-transfer (CT) state manifold via weakly allowed, low-energy optical transitions. For a wide range of photovoltaic devices based on polymer:fullerene, small-molecule:C60 and polymer:polymer blends, our study reveals that the internal quantum efficiency (IQE) is essentially independent of whether or not D, A or CT states with an energy higher than that of CT1 are excited. The best materials systems show an IQE higher than 90% without the need for excess electronic or vibrational energy.

Entities: Chemical Gene

Year: 2013 PMID： 24240240 DOI： 10.1038/nmat3807

Source DB: PubMed Journal: Nat Mater ISSN： 1476-1122 Impact factor: 43.841

14 in total

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4. Molecular understanding of organic solar cells: the challenges.

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6. Small-molecule solar cells-status and perspectives.

Authors: M Riede; T Mueller; W Tress; R Schueppel; K Leo
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7. Hot exciton dissociation in polymer solar cells.

Authors: G Grancini; M Maiuri; D Fazzi; A Petrozza; H-J Egelhaaf; D Brida; G Cerullo; G Lanzani
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8. Synthesis and characterization of near-infrared absorbing benzannulated aza-BODIPY dyes.

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9. Hot charge-transfer excitons set the time limit for charge separation at donor/acceptor interfaces in organic photovoltaics.

Authors: Askat E Jailaubekov; Adam P Willard; John R Tritsch; Wai-Lun Chan; Na Sai; Raluca Gearba; Loren G Kaake; Kenrick J Williams; Kevin Leung; Peter J Rossky; X-Y Zhu
Journal: Nat Mater Date: 2012-12-09 Impact factor: 43.841

10. Charge carrier formation in polythiophene/fullerene blend films studied by transient absorption spectroscopy.

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55 in total

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Authors: P B Deotare; W Chang; E Hontz; D N Congreve; L Shi; P D Reusswig; B Modtland; M E Bahlke; C K Lee; A P Willard; V Bulović; T Van Voorhis; M A Baldo
Journal: Nat Mater Date: 2015-09-28 Impact factor: 43.841

2. Beating the Stoner criterion using molecular interfaces.

Authors: Fatma Al Ma'Mari; Timothy Moorsom; Gilberto Teobaldi; William Deacon; Thomas Prokscha; Hubertus Luetkens; Steve Lee; George E Sterbinsky; Dario A Arena; Donald A MacLaren; Machiel Flokstra; Mannan Ali; May C Wheeler; Gavin Burnell; Bryan J Hickey; Oscar Cespedes
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3. Organic photovoltaics: Efficient relaxation.

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4. Prediction of the lowest charge-transfer excited-state energy at the donor-acceptor interface in a condensed phase using ground-state DFT calculations with generalized Kohn-Sham functionals.

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