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A new family of organic-inorganic hybrid materials will be introduced as an undoubted candidate for advanced
photonics applications. Alternating oxo-copolymers modified with organic functional groups were prepared through
solventless and catalyst-free process. A variety of optical functional centers such as rare-earth ion, organic dye and
metal/semiconductor nano-particles can be introduced into the systems with an excellent dispersivity to attain efficient
optical activities. In the present paper, doping of rhodamine 6G dye or/and Au particles, etc., was demonstrated.
Reversible photorefractive effect was observed in dye-doped hybrid thin film. Photothermal processing was used to
attain such a reversible effect in combination with the slow dynamics of glassy nature of the photorefractive material.
Rewritable holographic memory with a novel operating mechanism was studied.
Hiroshi Kakiuchida andMasahide Takahashi
"Organic-inorganic hybrid films highly doped with functional centers
for advanced photonics applications", Proc. SPIE 7934, Optical Components and Materials VIII, 79340F (23 February 2011); https://doi.org/10.1117/12.876339
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Hiroshi Kakiuchida, Masahide Takahashi, "Organic-inorganic hybrid films highly doped with functional centers for advanced photonics applications," Proc. SPIE 7934, Optical Components and Materials VIII, 79340F (23 February 2011); https://doi.org/10.1117/12.876339