Hole transport polymers with improved interfacial contact to the anode material

E. Bellmann; G. E. Jabbour; R. H. Grubbs; N. Peyghambarian

doi:10.1021/cm990689a

Hole transport polymers with improved interfacial contact to the anode material

E. Bellmann, G. E. Jabbour, R. H. Grubbs, N. Peyghambarian

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

New hole transport polymers have been prepared through copolymerization of a fluorinated triphenyl diamine derivative and trimethoxyvinylsilane. The modification with trimethoxysilane groups has resulted in materials which can be cross-linked through hydrolysis and are capable of forming covalent chemical bonds to oxidic surfaces. Organic light-emitting diodes containing these polymers show decreased operating voltages and enhanced operational stability due to improved interfacial contact between the hole transport layer and the anode.

Original language	English (US)
Pages (from-to)	1349-1353
Number of pages	5
Journal	Chemistry of Materials
Volume	12
Issue number	5
DOIs	https://doi.org/10.1021/cm990689a
State	Published - Apr 13 2000

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering
Materials Chemistry

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10.1021/cm990689a

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abstract = "New hole transport polymers have been prepared through copolymerization of a fluorinated triphenyl diamine derivative and trimethoxyvinylsilane. The modification with trimethoxysilane groups has resulted in materials which can be cross-linked through hydrolysis and are capable of forming covalent chemical bonds to oxidic surfaces. Organic light-emitting diodes containing these polymers show decreased operating voltages and enhanced operational stability due to improved interfacial contact between the hole transport layer and the anode.",

author = "E. Bellmann and Jabbour, {G. E.} and Grubbs, {R. H.} and N. Peyghambarian",

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Y1 - 2000/4/13

N2 - New hole transport polymers have been prepared through copolymerization of a fluorinated triphenyl diamine derivative and trimethoxyvinylsilane. The modification with trimethoxysilane groups has resulted in materials which can be cross-linked through hydrolysis and are capable of forming covalent chemical bonds to oxidic surfaces. Organic light-emitting diodes containing these polymers show decreased operating voltages and enhanced operational stability due to improved interfacial contact between the hole transport layer and the anode.

AB - New hole transport polymers have been prepared through copolymerization of a fluorinated triphenyl diamine derivative and trimethoxyvinylsilane. The modification with trimethoxysilane groups has resulted in materials which can be cross-linked through hydrolysis and are capable of forming covalent chemical bonds to oxidic surfaces. Organic light-emitting diodes containing these polymers show decreased operating voltages and enhanced operational stability due to improved interfacial contact between the hole transport layer and the anode.

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Hole transport polymers with improved interfacial contact to the anode material

Abstract

ASJC Scopus subject areas

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