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Загальна кількість знайдених документів : 130
Представлено документи з 1 до 20
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Skuratovsky I. A. A novel tin dioxide based semiconductor ceramics: a material for high nonlinearity varistors // Functional Materials. - 2003. - 10, № 2.
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Markevich I. V. About self-activated orange emission in ZnO // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2015. - 18, № 2.
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Ekino T. Break-junction tunneling spectra of Bi2212 superconducting ceramics: influence of inhomogeneous d-wave-Cooper-pairing and charge-density-wave order parameters // Фізика низ. температур. - 2020. - 46, N 4 (спец. вип.).
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Ekino T. Break-junction tunneling spectra of Bi2212 superconducting ceramics: influence of inhomogeneous d-wave-Cooper-pairing and charge-density-wave order parameters // Фізика низ. температур. - 2020. - 46, N 4 (спец. вип.).
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Gayduk O. V. Control of chromium dopant content in optical ceramics Cr:YAG // Functional Materials. - 2017. - 24, № 2.
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Kozlovsky A. A. Decrease of screening critical current compared to volume one due to boundary conditions influence on the ordering parameter in ceramic BiPbSrCaCuO HTSC samples // Functional Materials. - 1998. - 5, № 4.
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Kostishyn V. G. Effect of a temperature mode of radiation-thermal sintering the structure and magnetic properties of Mn - Zn-ferrites // Журн. нано- та електрон. фізики. - 2015. - 7, № 4.
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Kosyanov D. Yu. Effect of Nd3+ ions on porosity of SiO2-doped 0 - 4 at % Nd3+:Y3Al5O12 laser ceramics on different stages of reactive sintering // Functional Materials. - 2020. - 27, № 2.
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Khirnyi V. F. Effect of remanent magnetic fields on critical current in ceramic HTSC with broken vortices // Functional Materials. - 2001. - 8, № 3.
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Mamalis A. G. Fabrication of high-temperature ceramic superconductors at high strain rates. — 2002 // Сверхтвердые материалы.
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Sukhareva T. V. Galvanomagnetic properties of superconducting granules and grain boundaries in ceramic YBa2Cu3O7-delta high-temperature superconductor // Functional Materials. - 2012. - 19, № 4.
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Baumer V. N. Influence of processing conditions on the structure and properties of yttrium oxide ceramics // Functional Materials. - 2012. - 19, № 4.
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Virt I. Micromechanical properties and thermal annealing of zinc oxide bulk ceramic // Ukr. j. of mech. eng. and materials science. - 2015. - 1, № 1.
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Gusakova L. G. Modified potassium-sodium niobate based lead-free piezoceramics // Functional Materials. - 2010. - 17, № 4.
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Kim E. Nano periodic structure formation in 4H - SiC crystal using femtosecond laser double-pulses // Сверхтвердые материалы. - 2018. - № 4.
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Andrievskaya E. R. Nanocrystalline ceramics in the refractory oxide system based on ZrO2, Y2O3, La2O3 for ionic-conductors applications // Functional Materials. - 2001. - 8, № 1.
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Gaponov A. V. Non-ohmic conduction in tin dioxide based ceramics with copper addition // Semiconductor Physics, Quantum Electronics and Optoelectronics. - 2011. - 14, № 1.
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Chitanov D. N. Obtaining hexagonal ferrites for substrates microstrip microwave devices of mm-Range of LTCC-technology // Журн. нано- та електрон. фізики. - 2016. - 8, № 3.
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Kuzenko D. V. Relaxation processes in hard piezoelectric ceramics // Functional Materials. - 2009. - 16, № 4.
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Gevorkyan E. Revealing specific features of structure formation in composites based on nanopowders of synthesized zirconium dioxide // Eastern-Europ. J. of Enterprise Technologies. - 2021. - № 5/12.
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