Aggregation-enhanced luminescence and vibronic coupling of silole molecules from first principles

Shiwei Yin; Qian Peng; Z. Shuai; Weihai Fang; Yan Hua Wang; Yi Luo

doi:10.1103/PhysRevB.73.205409

Aggregation-enhanced luminescence and vibronic coupling of silole molecules from first principles

Shiwei Yin^*, Qian Peng, Z. Shuai, Weihai Fang, Yan Hua Wang, Yi Luo

^*Corresponding author for this work

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

125 Citations (Scopus)

Abstract

Aggregate formation in molecular solids usually quenches the luminescence, a piece of bad news for molecular electronic devices. However, siloles present extremely high luminescent efficiency in solid state as well as in aggregation, but have almost no luminescence in solution. By employing a first-principles calculation to study excited states and vibronic couplings, we find that it is the low-frequency twisting motions of side rings which enhance the nonradiative decay. These motions can be suppressed either by solid-state packing, by aggregation formation in polar solvents, or by increasing the solvent viscosity; thereby, the radiative decay becomes dominant, resulting in peculiar aggregate-induced emission phenomena in siloles.

Original language	English
Article number	205409
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	73
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevB.73.205409
Publication status	Published - 2006
Externally published	Yes

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title = "Aggregation-enhanced luminescence and vibronic coupling of silole molecules from first principles",

abstract = "Aggregate formation in molecular solids usually quenches the luminescence, a piece of bad news for molecular electronic devices. However, siloles present extremely high luminescent efficiency in solid state as well as in aggregation, but have almost no luminescence in solution. By employing a first-principles calculation to study excited states and vibronic couplings, we find that it is the low-frequency twisting motions of side rings which enhance the nonradiative decay. These motions can be suppressed either by solid-state packing, by aggregation formation in polar solvents, or by increasing the solvent viscosity; thereby, the radiative decay becomes dominant, resulting in peculiar aggregate-induced emission phenomena in siloles.",

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AU - Yin, Shiwei

AU - Peng, Qian

AU - Shuai, Z.

AU - Fang, Weihai

AU - Wang, Yan Hua

AU - Luo, Yi

PY - 2006

Y1 - 2006

N2 - Aggregate formation in molecular solids usually quenches the luminescence, a piece of bad news for molecular electronic devices. However, siloles present extremely high luminescent efficiency in solid state as well as in aggregation, but have almost no luminescence in solution. By employing a first-principles calculation to study excited states and vibronic couplings, we find that it is the low-frequency twisting motions of side rings which enhance the nonradiative decay. These motions can be suppressed either by solid-state packing, by aggregation formation in polar solvents, or by increasing the solvent viscosity; thereby, the radiative decay becomes dominant, resulting in peculiar aggregate-induced emission phenomena in siloles.

AB - Aggregate formation in molecular solids usually quenches the luminescence, a piece of bad news for molecular electronic devices. However, siloles present extremely high luminescent efficiency in solid state as well as in aggregation, but have almost no luminescence in solution. By employing a first-principles calculation to study excited states and vibronic couplings, we find that it is the low-frequency twisting motions of side rings which enhance the nonradiative decay. These motions can be suppressed either by solid-state packing, by aggregation formation in polar solvents, or by increasing the solvent viscosity; thereby, the radiative decay becomes dominant, resulting in peculiar aggregate-induced emission phenomena in siloles.

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Aggregation-enhanced luminescence and vibronic coupling of silole molecules from first principles

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