V. M. Skliarchuk scite author profile

Анотація. Представлено результати експериментального дослідження електропровідності співлегованих азотом (до 4,3 атомних %) та алюмінієм (2,4 атомних %) n-типу плівок ZnO:N:Al, осаджених методом високочастотного магнетронного розпилення на підкладках p-Si. З аналізу температурних залежностей питомого опору й енергії рівня Фермі знайдено енергію іонізації і ступінь компенсації домішок (дефектів), відповідальних за електропровідність досліджених зразків.Ключові слова: плівки ZnO, Al-N співлегування, електропровідність, самокомпенсація Abstract. The results of experimental investigation of conductivity of codoped by nitrogen (up to 4.3 atomic %) and by aluminum (2.4 atomic %) n-type ZnO:N:Al films, deposited by radio frequency magnetron sputtering on p-Si substrates, are presented. Using the analysis of temperature dependences of resistivity and of the energy of the Fermi level, the ionization energy and the degree of compensation

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DETERMINATION OF BARRIER HEIGHT OF Ni-SEMICONDUCTOR CONTACTS BY PHOTOELECTRIC METHOD

Махний¹,

Березовський²,

Skliarchuk³

et al. 2018

SEMST

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Анализируются спектры фототока структур, полученных вакуумным напылением полупрозрачных слоев Ni на химически травленные подложки ряда полупроводников (Si, GaAs, GaP, CdTe и ZnSe) n-типа проводимости. Все структуры обладают фоточувствительностью в области энергий фотонов меньше ширины запрещенной зоны полупроводника при освещении как со стороны никеля, так и со стороны подложки. Оба эти спектральные участки построенные в фаулеровских координатах приводят к одинаковым значениям высоты потенциального барьера для каждого из исследуемых контактов Ni-полупроводник.

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CsPbBr3 perovskite single crystals for X- and gamma-radiation detectors

Skliarchuk¹,

Fochuk²,

Kopach³

et al. 2023

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Methods were developed for the synthesis and growth of the inorganic perovskite CsPbBr3, which can be used for detection of optical, x-ray, and γ-radiation. The growth of single crystals of these compounds was carried out by the Bridgman method in quartz ampoules using zone-refined starting materials. The electro-physical properties of the lead cesium tribromide CsPbBr3 were studied. Two types of structures with a Cr/CsPbBr3/Ni rectifying barrier and Ni/CsPbBr3/Ni ohmic contacts were created. The resistivity of the semiconductor material (ρ≈7×109 Ohm•cm) and the activation energy of the dark conductivity (▵E≈0.8 eV) were determined. From the measurements of the optical transmission spectra, the energy gap of CsPbBr3 at 300 K was found to be Еg = 2.27 eV. The temperature dependence of the forbidden gap (Eg(T) = 2.4 - 4*10-4 T, eV) was also determined. A significant increase in photosensitivity for the Cr/CsPbBr3/Ni structure was observed at elevated temperatures. The Cr/CsPbBr3/Ni structures were shown to be sensitive to γ radiation. The FWHM of the energy resolution for an 241Am source was measured to be 15.8 keV.

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V. M. Skliarchuk

Radiation resistance of near-infrared photodiodes based on Hg3In2Te6

THE LEVEL OF SELF-COMPENSATION OF ZnO CODOPED BY NITROGEN AND ALUMINUM

DETERMINATION OF BARRIER HEIGHT OF Ni-SEMICONDUCTOR CONTACTS BY PHOTOELECTRIC METHOD

CsPbBr3 perovskite single crystals for X- and gamma-radiation detectors

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