Enhanced temporal stability of a highly efficient guest-host electro-optic polymer through a barrier layer assisted poling process

Su Huang; Jingdong Luo; Zhian Jin; Xing-Hua Zhou; Zhengwei Shi; Alex K.-Y. Jen

doi:10.1039/c2jm33979j

Enhanced temporal stability of a highly efficient guest-host electro-optic polymer through a barrier layer assisted poling process

Su Huang, Jingdong Luo, Zhian Jin, Xing-Hua Zhou, Zhengwei Shi, Alex K.-Y. Jen^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

26 Citations (Scopus)

Abstract

Significantly enhanced temporal stability of poled electro-optic (E-O) polymers could be achieved by inserting a thin sol-gel derived titanium dioxide (TiO₂) barrier layer in the high electric field poling process. The resulting poled film can retain >90% of its original r₃₃ value (169 pm V^-1 at 1310 nm) after being annealed at 85 °C for 500 h. This is significantly higher (∼30%) compared to that obtained without the TiO₂ layer. This barrier approach is also applicable to a variety of dielectric polymers although the degree of enhancement varies. The enhanced temporal stability of E-O polymers is attributed to reduced charge injection/accumulation that improves the stability of screening charges for poled films.

Original language	English
Pages (from-to)	20353-20357
Journal	Journal of Materials Chemistry
Volume	22
Issue number	38
Online published	9 Aug 2012
DOIs	https://doi.org/10.1039/c2jm33979j
Publication status	Published - 11 Sept 2012
Externally published	Yes

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abstract = "Significantly enhanced temporal stability of poled electro-optic (E-O) polymers could be achieved by inserting a thin sol-gel derived titanium dioxide (TiO2) barrier layer in the high electric field poling process. The resulting poled film can retain >90% of its original r33 value (169 pm V-1 at 1310 nm) after being annealed at 85 °C for 500 h. This is significantly higher (∼30%) compared to that obtained without the TiO2 layer. This barrier approach is also applicable to a variety of dielectric polymers although the degree of enhancement varies. The enhanced temporal stability of E-O polymers is attributed to reduced charge injection/accumulation that improves the stability of screening charges for poled films. ",

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AU - Huang, Su

AU - Luo, Jingdong

AU - Jin, Zhian

AU - Zhou, Xing-Hua

AU - Shi, Zhengwei

AU - Jen, Alex K.-Y.

PY - 2012/9/11

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N2 - Significantly enhanced temporal stability of poled electro-optic (E-O) polymers could be achieved by inserting a thin sol-gel derived titanium dioxide (TiO2) barrier layer in the high electric field poling process. The resulting poled film can retain >90% of its original r33 value (169 pm V-1 at 1310 nm) after being annealed at 85 °C for 500 h. This is significantly higher (∼30%) compared to that obtained without the TiO2 layer. This barrier approach is also applicable to a variety of dielectric polymers although the degree of enhancement varies. The enhanced temporal stability of E-O polymers is attributed to reduced charge injection/accumulation that improves the stability of screening charges for poled films.

AB - Significantly enhanced temporal stability of poled electro-optic (E-O) polymers could be achieved by inserting a thin sol-gel derived titanium dioxide (TiO2) barrier layer in the high electric field poling process. The resulting poled film can retain >90% of its original r33 value (169 pm V-1 at 1310 nm) after being annealed at 85 °C for 500 h. This is significantly higher (∼30%) compared to that obtained without the TiO2 layer. This barrier approach is also applicable to a variety of dielectric polymers although the degree of enhancement varies. The enhanced temporal stability of E-O polymers is attributed to reduced charge injection/accumulation that improves the stability of screening charges for poled films.

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DO - 10.1039/c2jm33979j

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Enhanced temporal stability of a highly efficient guest-host electro-optic polymer through a barrier layer assisted poling process

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