Nanoscale Architectural Control and Macromolecular Engineering of Nonlinear Optical Dendrimers and Polymers for Electro-Optics

Recent progress in developing highly efficient nonlinear optical dendrimers and polymers for high-performance electro-optic (EO) devices has been reviewed. Our efforts are focused on using nanoscale architectural control to tailor the size, shape, conformation, and functionality of NLO chromophores...

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Veröffentlicht in:	The journal of physical chemistry. B 2004-06, Vol.108 (25), p.8523-8530
Hauptverfasser:	Luo, Jingdong, Haller, Marnie, Ma, Hong, Liu, Sen, Kim, Tae-Dong, Tian, Yanqing, Chen, Baoquan, Jang, Sei-Hum, Dalton, Larry R, Jen, Alex K.-Y
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creator	Luo, Jingdong Haller, Marnie Ma, Hong Liu, Sen Kim, Tae-Dong Tian, Yanqing Chen, Baoquan Jang, Sei-Hum Dalton, Larry R Jen, Alex K.-Y
description	Recent progress in developing highly efficient nonlinear optical dendrimers and polymers for high-performance electro-optic (EO) devices has been reviewed. Our efforts are focused on using nanoscale architectural control to tailor the size, shape, conformation, and functionality of NLO chromophores and macromolecules and studying their effects on poling efficiency. The structures of these materials vary from a 3-D-shaped dendritic chromophore, multifunctional dendrimers with the center core connected to NLO chromophores and cross-linkable functional groups at the periphery, to side-chain-dendronized NLO polymers. All the poling results from these systems have shown dramatically enhanced EO properties (a factor of 2−3) compared to conventional NLO polymers.
doi_str_mv	10.1021/jp036714o
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title	Nanoscale Architectural Control and Macromolecular Engineering of Nonlinear Optical Dendrimers and Polymers for Electro-Optics
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