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Degradation of Ir(ppy)2(dtb-bpy)PF6 iTMC OLEDs

Published online by Cambridge University Press:  31 January 2011

Velda Goldberg ,
Michael D. Kaplan ,
Leonard Soltzberg ,
Dolly Armira ,
Megan Bigelow ,
Stephanie Bitzas ,
Rachel Brady ,
Shannon Browne ,
Bianca Dichiaro  and
Heather Foley
...Show all authors
Velda Goldberg
Affiliation:
velda.goldberg@simmons.edu, Simmons College, Physics, Boston, Massachusetts, United States
Michael D. Kaplan
Affiliation:
michael.kaplan@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Leonard Soltzberg
Affiliation:
lsoltzberg@simmons.edu, Simmons College, Chemistry, 300 The Fenway, Boston, Massachusetts, 02115, United States, 617 521-2728, 617 521-3086
Dolly Armira
Affiliation:
dolly.armira@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Megan Bigelow
Affiliation:
megan.bigelow@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Stephanie Bitzas
Affiliation:
stephanie.bitzas@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Rachel Brady
Affiliation:
rachel.brady@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Shannon Browne
Affiliation:
shannon.browne@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Bianca Dichiaro
Affiliation:
bianca.dichiaro@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Heather Foley
Affiliation:
heather.foley@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Lauren Hutchinson
Affiliation:
lauren.hutchinson@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Alison Inglis
Affiliation:
alison.inglis@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Nicole Kawamoto
Affiliation:
nicole.kawamoto@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Amanda McLaughlin
Affiliation:
amanda.mclaughlin@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Caitlin Millett
Affiliation:
caitlin.millett@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Hanah Nasri
Affiliation:
hanah.nasri@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Sarah Newsky
Affiliation:
sarah.newsky@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Tram Pham
Affiliation:
tram.pham@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Cassandra Saikin
Affiliation:
cassandra.saikin@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Mary Scharpf
Affiliation:
mary.scharpf@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
Melissa Trieu
Affiliation:
melissa.trieu@simmons.edu, Simmons College, Chemistry & Physics, Boston, Massachusetts, United States
George G. Malliaras
Affiliation:
ggm@cornell.edu, Cornell University, Materials Science & Engineering, Ithaca, New York, United States
Stefan Bernhard
Affiliation:
bern@princeton.edu, Princeton University, Chemistry, Princeton, New Jersey, United States
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Abstract

Simplicity of construction and operation are advantages of iTMC (ionic transition metal complex) OLEDs compared with multi-layer OLED devices. Unfortunately, lifetimes do not compare favorably with the best multi-layer devices. We have previously shown for Ru(bpy)3(PF6)2 based iTMC OLEDs that electrical drive produces emission-quenching dimers of the active species. We report evidence here that a chemical process may also be implicated in degradation of devices based on Ir(ppy)2(dtb-bpy)PF6 albeit by a very different mechanism. It appears that degradation of operating devices made with this Ir-based complex is related to current-induced heating of the organic layer, resulting in loss of the dtb-bpy ligand. (The dtb-bpy ligand is labile compared with the cyclometallated ppy ligands.) Morphological changes observed in electrically driven Ir(ppy)2(dtb-bpy)PF6 OLEDs provide evidence of substantial heating during device operation. Evidence from UV-vis spectra in the presence of an electric field as well as MALDI-TOF mass spectra of the OLED materials before and after electrical drive add support for this model of the degradation process.

Keywords

chemical compositionluminescenceoptoelectronic
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1154: Symposium B – Concepts in Molecular and Organic Electronics , 2009 , 1154-B10-38
Copyright
Copyright © Materials Research Society 2009

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References

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