Unconditionally stable indole-derived glass blends having very high photorefractive gain: the role of intermolecular interactions
Author:
Publisher
The Optical Society
Reference47 articles.
1. Poly(1-vinylindole) and some of its methyl derivatives as substrates for photorefractive materials: their synthesis, optical, and electrical characterization
2. Synthesis and characterization of different poly(1-vinylindole)s for photorefractive materials
3. Photoconductive films of poly-N-vinylindole-based blends for high-voltage photorefractive electrooptic cells
4. Stability improvement of high-performance photorefractive polymers containing eutectic mixtures of electro-optic chromophores
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3. Organic Photorefractive Materials and Applications;Advanced Materials;2011-09-13
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