Structure–function relationship exploration for enhanced thermal stability and electro-optic activity in monolithic organic NLO chromophores - Concepedia

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Structure–function relationship exploration for enhanced thermal stability and electro-optic activity in monolithic organic NLO chromophores

87

Citations

38

References

2016

Year

Wenwei Jin, Peter V. Johnston, Delwin L. Elder, Karl T. Manner, Kerry E. Garrett, Werner Kaminsky, Ruimin Xu, Bruce H. Robinson, Larry R. Dalton

Journal of Materials Chemistry C

Optical MaterialsEngineeringOrganic ElectronicsStructure–function Relationship ExplorationOptoelectronic DevicesChemistryEnhanced Thermal StabilityOptical PropertiesHybrid MaterialsThermal StabilityMaterials SciencePhotochemistryOptoelectronic MaterialsOrganic SemiconductorFunctional MaterialsOrganic MaterialsOrganic Charge-transfer CompoundOrganic Material ChemistryElectronic MaterialsApplied PhysicsElectro-optic ActivityMolecule-based MaterialBridge Molecular ModificationStructure–function Relationship Study

Abstract

Structure–function relationship study in a series of organic monolithic electro-optic materials has revealed the impact of donor and bridge molecular modification, leading to material with increased EO behavior and improved thermal stability.

References

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