Theoretical studies on two-photon absorption properties of newly synthesized triaryl boron-based A-π-A and triaryl nitrogen-based D-π-D quadrupolar compounds

The nonlinear optical properties of newly synthesized triaryl boron-based A-π-A and triaryl nitrogen-based D-π-D compounds have been studied with hybrid density functional theory. The generalized few-state model is employed to calculate two-photon absorption cross sections of the compounds. It is fo...

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Published in:Chemical physics letters 2006-07, Vol.425 (1), p.10-15
Main Authors: Tao, Li-Min, Guo, Ya-Hui, Huang, Xiao-Ming, Wang, Chuan-Kui
Format: Article
Language:English
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Summary:The nonlinear optical properties of newly synthesized triaryl boron-based A-π-A and triaryl nitrogen-based D-π-D compounds have been studied with hybrid density functional theory. The generalized few-state model is employed to calculate two-photon absorption cross sections of the compounds. It is found that boron-based A-π-A compounds have large two-photon absorption cross sections. Moreover, the length of π center has larger effect on the one- and two-photon absorption properties of boron-based A-π-A compounds than those of nitrogen-based D-π-D compounds. The numerical simulation shows that boron-based A-π-A compounds have similar performance as nitrogen-based D-π-D analogues in regard to nonlinear optical properties. Boron-based A-π-A compounds are promising candidates for large two-photon absorption materials. The theoretical results are in good agreement with the available experimental measurements. The nonlinear optical properties of newly synthesized triaryl boron-based A-π-A and triaryl nitrogen-based D-π-D compounds have been studied with hybrid density functional theory. The generalized few-state model is employed to calculate two-photon absorption cross sections of the compounds. It is found that boron-based A-π-A compounds have large two-photon absorption cross sections. Moreover, the length of π center has larger effect on the one- and two-photon absorption properties of boron-based A-π-A compounds than those of nitrogen-based D-π-D compounds. The numerical simulation shows that boron-based A-π-A compounds have similar performance as nitrogen-based D-π-D analogues in regard to nonlinear optical properties. Boron-based A-π-A compounds are promising candidates for large two-photon absorption materials. The theoretical results are in good agreement with the available experimental measurements.
ISSN:0009-2614
1873-4448
DOI:10.1016/j.cplett.2006.04.096