Source: http://dopovidi-nanu.org.ua/en/archive/2018/3/7
Timestamp: 2019-04-21 08:24:34+00:00

Document:
The efficiency of aluminum nitride films as thermal interfaces has been studied. It is shown that such films obtained in a hybrid helicon-arc ion-plasma reactor significantly improve the heat removal from the crystals of electronic devices, in particular, from powerful LEDs or LED assemblies, and thus noteworthy increase their luminosity, reliability, and durability.
Chasnyk, V. I. (2013). Application of high-conductivity aluminum nitride ceramics in vacuum electronic microwave devices. Techn. Design. Electron. Equipment. No. 4, pp. 8-12 (in Russian).
Semeniuk, V. F., Rudenko, E. M., Korotash, I. V., Osipov, L. S., Polotsky, D. Yu., Shamray, V. V., Odino kov, V. V., Pavlov, G. Ya. & Sologub, V.A. (2011). Unified technological ion-plasma equipment for the formation of nanostructures. Metallofiz. Noveishie Tekhnol. 33, No. 2, pp. 223-231 (in Russian).
Osipov, L., Rudenko, E., Semeniuk, V., Korotash, I., Odinokov, V., Pavlov, G. & Sologub, V. (2010). Highly effective source of the low-temperature deposition of films and coatings. Nanoindustr. No 2, pp. 4-6 (in Russian).
Pat. 87747 UA, IPC C23C 14/34 (2006.01), Plasma device for application of multilayered film coatings, Veremejchenko, G. N., Korotash, I. V., Rudenko, E. M., Semeniuk, V. F., Odinokov, V. V., Pavlov, H. Y. & Solohub, V. A. Publ. 25.02.2014 (in Ukrainian).
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Chen, G. (2005). Nanoscale energy transport and conversion: a parallel treatment of electrons, molecules, phonons, and photons. Oxford: Oxford Univ. Press.

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