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Baird, Douglas L. ; Nahlawi, Adnan ; Crossley, Kenneth ; van Schooten, Kipp J. ; Teferi, Mandefro Y. ; Popli, Henna ; Joshi, Gajadhar ; Jamali, Shirin ; Malissa, Hans ; Lupton, John M. ; Boehme, Christoph

Electric Field Effects on Photoluminescence-Detected Magnetic Resonance of a π-Conjugated Polymer

Baird, Douglas L., Nahlawi, Adnan, Crossley, Kenneth, van Schooten, Kipp J., Teferi, Mandefro Y., Popli, Henna, Joshi, Gajadhar, Jamali, Shirin, Malissa, Hans , Lupton, John M. und Boehme, Christoph (2019) Electric Field Effects on Photoluminescence-Detected Magnetic Resonance of a π-Conjugated Polymer. Physica Status Solidi (B) 257, S. 1900493.

Veröffentlichungsdatum dieses Volltextes: 27 Jan 2021 12:42
Artikel
DOI zum Zitieren dieses Dokuments: 10.5283/epub.44631

Dies ist die aktuelle Version dieses Eintrags.


Zusammenfassung

Electric fields are central to the operation of optoelectronic devices based on conjugated polymers as they drive the recombination of electrons and holes to excitons in organic light-emitting diodes but are also responsible for the dissociation of excitons in solar cells. One way to track the microscopic effect of electric fields on charge carriers formed under illumination of a polymer film is ...

Electric fields are central to the operation of optoelectronic devices based on conjugated polymers as they drive the recombination of electrons and holes to excitons in organic light-emitting diodes but are also responsible for the dissociation of excitons in solar cells. One way to track the microscopic effect of electric fields on charge carriers formed under illumination of a polymer film is to exploit the fluorescence arising from delayed recombination of carrier pairs, a process which is fundamentally spin dependent. Such spin-dependent recombination can be probed directly in fluorescence, by optically detected magnetic resonance (ODMR). It is found that the ODMR signal in a polymer film is quenched in an electric field in the absence of a current, but that, at fields exceeding 1 MV cm(-1), this quenching saturates at a level of at most 50%.



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Details

DokumentenartArtikel
Titel eines Journals oder einer ZeitschriftPhysica Status Solidi (B)
Verlag:Wiley
Open Access Art:DEAL (Wiley)
Ort der Veröffentlichung:WEINHEIM
Band:257
Seitenbereich:S. 1900493
Datum11 Dezember 2019
InstitutionenPhysik > Institut für Experimentelle und Angewandte Physik > Lehrstuhl Professor Lupton > Arbeitsgruppe John Lupton
Identifikationsnummer
WertTyp
10.1002/pssb.201900493DOI
Stichwörter / KeywordsMEH-PPV; ASSISTED DISSOCIATION; FLUORESCENCE; EXCITON; FILMS; RECOMBINATION; POLYFLUORENE; EXCITATIONS; DYNAMICS; POLARON; optically detected magnetic resonance; photoluminescence; poly[2-methoxy-5-(2'-ethylhexyloxy)-p-phenylene vinylene]; electric field effects
Dewey-Dezimal-Klassifikation500 Naturwissenschaften und Mathematik > 530 Physik
StatusVeröffentlicht
BegutachtetJa, diese Version wurde begutachtet
An der Universität Regensburg entstandenJa
URN der UB Regensburgurn:nbn:de:bvb:355-epub-446311
Dokumenten-ID44631

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