I.A. Korzh scite author profile

I.A. Korzh

5Publications

2Citation Statements Received

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National Technical University "Kharkiv Polytechnic Institute"

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Temperature dependencies of electrical resistivity and thermoelectric power of SnTe thin films

Рогачева

Nashchekina

Korzh

et al. 2001

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The temperature dependences of electrical resistivity p and thermoelectric power S for the SnTe polycrystalline thin films with charge carrier concentration of(3 -5). 1021 cm3 have been obtained in the range of 80 -300 K. It was established that the p (T) and S (T) dependences had non-monotonous character. In the temperature range of (80 -150) K series of peculiarities in the form of steps and plateaux were observed most distinctly. Assumptions about the nature of these anomalies were made. The possible reasons for appearance of numerous temperature peculiarities are system's passing through different quantum states; the processes of self-organization taking place in an open system (heated thin film) at defmite levels of excitation (certain temperatures); microdomain structure of thin films; relaxation processes. The pronounced anomalies observed in the temperature ranges of 135-150 and 190-200 K were attributed to phase transitions caused by redistribution of non-stoichiometric defects.Effective application of materials based on the IV-VI compounds in IR-photoelectronics, thermoelectricity, lasers, 12 impossible without knowing temperature dependences of main electrical and thermal parameters. Temperature anomalies of properties can essentially affect the semiconductor parameters of a device. That is why determining the temperature ranges of instability of crystal lattice and/or electron subsystem is very important both from scientific and practical application points of viewThe objects of the present study are SnTe polycrystalline thin films. The SnTe semiconductor compound is characterized by high concentration (1020 1021 cm3) of native defects, mainly cation vacancies, caused by significant deviation from stoichiometry.2'3 This results in high concentration PH of p-type charge carriers, which can be controlled by changing the degree of deviation from stoichiometry.By now it has been established that at temperature T 100 K SnTe undergoes ferroelectric displacive phase transition (FPT),4'5 which is accompanied by the change in crystal lattice symmetry from cubic into rhombohedral and appearance of anomalies in temperature dependences of different physical properties61° in particular electrical resistivity p.1113 It was shown'4'11'15 that the increase of carrier concentration led to decrease of Tc and at PH > (7-8) . 1020 cm3 FPT was not observed. A number of authors6'7"6 suggested the existence of at least two phase transitions. When studying nuclear magnetic resonance, the authors of'7 detected "steps" in the temperature dependences of resonant fields of' '9Sn nuclei at T = 376/n (n = 1 -6). They suggested that the observed phenomena are connected with movement of the crystal lattice defects which affects local distribution of electron density under changing temperature. In'82° the temperature anomalies of p and the Hall coefficient RH were revealed in the ranges of 13 5-150 and 200-2 15 K in monocrystalline thin films of SnTe with charge carrier concentration PH = (3.5 -4.5). 1020 cm3 and bulk powder samples ...

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Technological Features of Frequency Trimming for Ultranarrowband Saw Filters

Kosarev¹,

Korzh²

2019

RCT

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DETERMINATION OF BURNING TEMPERATURE NANOFOLGS Ni-Al WITH SHS EFFECT

Korzh¹

2019

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Приведена методика определения температуры горения в нанопленках Ni-Al. Определена температура горения, которая находятся на уровне известных данных в пределах 1300-1500 о С.  Ключевые слова: самораспространяющийся высокотемпературный синтез, температура горения, нанопленки Ni-Al.

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Development of a Technology for Producing Self-Supporting Nano Films With the Effect of Self-Distributing High-Temperature Synthesis

Korzh¹,

Zonova²

2019

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Проведен анализ литературы по получению свободных, самоподдерживающихся нанопленок с эффектом самораспространяющегося высокотемпературного синтеза. Приведены результаты экспериментов по получению Ni-Al фольги на различных подложках. Показано, что наилучшие параметры нанопленок (фольги) Ni-Al получаются на стеклянных подложках со слоем меди, фольгированным медью полиимиде и латунных подложках.  Ключевые слова: самораспространяющийся высокотемпературный синтез, нанопленки, фольга Ni-Al, технология получения самоподдерживающихся нанопленок.

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Clusters and boundaries in chalcogenide amorphous films

Lykah

Dyakonenko

Sinelnik

et al. 2017

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I.A. Korzh

Temperature dependencies of electrical resistivity and thermoelectric power of SnTe thin films

Technological Features of Frequency Trimming for Ultranarrowband Saw Filters

DETERMINATION OF BURNING TEMPERATURE NANOFOLGS Ni-Al WITH SHS EFFECT

Development of a Technology for Producing Self-Supporting Nano Films With the Effect of Self-Distributing High-Temperature Synthesis

Clusters and boundaries in chalcogenide amorphous films

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