Tuning two-photon absorption cross-sections for triphenylamine derivatives

Zhen Fang; Richard D. Webster; Marek Samoc; Yee Hing Lai

doi:10.1039/c3ra42789g

Tuning two-photon absorption cross-sections for triphenylamine derivatives

Zhen Fang^*, Richard D. Webster, Marek Samoc, Yee Hing Lai

^*Corresponding author for this work

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

17 Citations (Scopus)

Abstract

A methylene bridge link connecting the ortho-positions within the triphenylamine scaffold increases the molecular planarity significantly. The one-photon spectroscopies of bridged triphenylamine molecules show considerable extended conjugation relative to their triphenylamine counterparts, leading to enhanced two-photon absorption (TPA) cross-sections. Various substituents at the scaffold have been prepared and studied. Using a femtosecond laser source Z-scan method, the TPA cross-sections were characterized. The maximum magnitude of the TPA cross-section is ∼4800 GM, which is four times that of its triphenylamine counterpart.

Original language	English
Pages (from-to)	17914-17917
Number of pages	4
Journal	RSC Advances
Volume	3
Issue number	39
DOIs	https://doi.org/10.1039/c3ra42789g
Publication status	Published - Oct 21 2013
Externally published	Yes

ASJC Scopus Subject Areas

General Chemistry
General Chemical Engineering

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AU - Lai, Yee Hing

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AB - A methylene bridge link connecting the ortho-positions within the triphenylamine scaffold increases the molecular planarity significantly. The one-photon spectroscopies of bridged triphenylamine molecules show considerable extended conjugation relative to their triphenylamine counterparts, leading to enhanced two-photon absorption (TPA) cross-sections. Various substituents at the scaffold have been prepared and studied. Using a femtosecond laser source Z-scan method, the TPA cross-sections were characterized. The maximum magnitude of the TPA cross-section is ∼4800 GM, which is four times that of its triphenylamine counterpart.

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Tuning two-photon absorption cross-sections for triphenylamine derivatives

Abstract

ASJC Scopus Subject Areas

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