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Thermal conductivity of opal filled with a LiIO3 ionic conductor

Ali E. AlievLG-Electronics Corporation, Institute of Technologies LG-Elite, Seoul, 137724, KoreaN. Kh. AkhmedzhanovaDepartment of Thermal Physics, Academy of Sciences of Uzbekistan, ul. Katartal 28, kvartal Ts, Chilanzar, Tashkent, 700135, UzbekistanV. F. KrivorotovDepartment of Thermal Physics, Academy of Sciences of Uzbekistan, ul. Katartal 28, kvartal Ts, Chilanzar, Tashkent, 700135, UzbekistanIskandar KholmanovDepartment of Thermal Physics, Academy of Sciences of Uzbekistan, ul. Katartal 28, kvartal Ts, Chilanzar, Tashkent, 700135, UzbekistanA. A. FridmanDepartment of Thermal Physics, Academy of Sciences of Uzbekistan, ul. Katartal 28, kvartal Ts, Chilanzar, Tashkent, 700135, Uzbekistan

Physics of the Solid Statejournal2003en

ABI

Annotatsiya

The temperature dependences of the thermal conductivity of a synthetic opal and opal-based nano-composites prepared by introducing a LiIO3 superionic conductor into pores of the opal matrix from an aqueous solution or melt are measured by the hot-wire technique in the temperature range 290–420 K. It is demonstrated that the thermal conductivity of pure opal increases with an increase in the diameter of the SiO2 spheres forming a face-centered cubic lattice of an opal and is determined by the total thermal resistance of interfaces between the spheres. Filling of opal pores with the ionic conductor leads to an increase in the thermal conductivity. The behavior of the thermal conductivity and its magnitude in opal-based nanocomposites depend to a large extent on the method of filling the matrix pores.

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Mavzular

Photonic Crystals and Applications Random lasers and scattering media Photonic and Optical Devices

Identifikatorlar

DOI: 10.1134/1.1537411

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