Singlet and triplet exciton formation rates in conjugated polymer light-emitting diodes

Z. Shuai; D. Beljonne; R. J. Silbey; J. L. Brédas

doi:10.1103/PhysRevLett.84.131

Singlet and triplet exciton formation rates in conjugated polymer light-emitting diodes

Z. Shuai
, D. Beljonne
, R. J. Silbey
, J. L. Brédas

Chemistry & Biochemistry - Sci

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

278 Scopus citations

Abstract

By applying a molecular orbital perturbation approach, we calculate the formation rates for singlet and triplet molecular excitons associated with intermolecular charge-transfer processes. It is found that the interchain bond-charge correlation has a strong influence on the relative probabilities for generating singlet and triplet excitons. Most importantly, application of our approach to a model system for poly-(paraphenylenevinylene) shows that the ratio between the electroluminescence and photoluminescence quantum yields generally exceeds the 25% spin-degeneracy statistical limit.

Original language	English (US)
Pages (from-to)	131-134
Number of pages	4
Journal	Physical review letters
Volume	84
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.84.131
State	Published - 2000

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.84.131

Cite this

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abstract = "By applying a molecular orbital perturbation approach, we calculate the formation rates for singlet and triplet molecular excitons associated with intermolecular charge-transfer processes. It is found that the interchain bond-charge correlation has a strong influence on the relative probabilities for generating singlet and triplet excitons. Most importantly, application of our approach to a model system for poly-(paraphenylenevinylene) shows that the ratio between the electroluminescence and photoluminescence quantum yields generally exceeds the 25\% spin-degeneracy statistical limit.",

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AU - Shuai, Z.

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Y1 - 2000

N2 - By applying a molecular orbital perturbation approach, we calculate the formation rates for singlet and triplet molecular excitons associated with intermolecular charge-transfer processes. It is found that the interchain bond-charge correlation has a strong influence on the relative probabilities for generating singlet and triplet excitons. Most importantly, application of our approach to a model system for poly-(paraphenylenevinylene) shows that the ratio between the electroluminescence and photoluminescence quantum yields generally exceeds the 25% spin-degeneracy statistical limit.

AB - By applying a molecular orbital perturbation approach, we calculate the formation rates for singlet and triplet molecular excitons associated with intermolecular charge-transfer processes. It is found that the interchain bond-charge correlation has a strong influence on the relative probabilities for generating singlet and triplet excitons. Most importantly, application of our approach to a model system for poly-(paraphenylenevinylene) shows that the ratio between the electroluminescence and photoluminescence quantum yields generally exceeds the 25% spin-degeneracy statistical limit.

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Singlet and triplet exciton formation rates in conjugated polymer light-emitting diodes

Abstract

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