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005.007.01
005.007.02
See Russian version.
Theses prepared for submission
Postgraduate
Fields of study
Междисциплинарная кафедра подготовки кадров высшей квалификации
Admission to the postgraduate
Прием в целевую аспирантуру
Список аспирантов (на 1 октября 2024 года)
Противодействие коррупции
Нормативные правовые и иные акты в сфере противодействия коррупции
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Статистическо-финансовая отчетность ИАПУ ДВО РАН
Комиссия по соблюдению требований к служебному поведению и урегулированию конфликта интересов
Обратная связь для сообщений о фактах коррупции
Il’yashenko Vladimir Mikhailovich
Degree:
PhD (Phys.-Math.)
Position:
scientific employee
Department:
Лаборатория оптики и электрофизики (№105)
Room:
321
Email:
vladimir@iacp.dvo.ru
Publications:
2024
2022
2020
2018
Article
2024.
2022. A.V. Shevlyagin et al. Mg2Si is the new black: Introducing a black silicide with >95% average absorption at 200–1800 nm wavelengths // Applied Surface Science. - 2022. - V. 602. - PP. 154321.
2020.
2018. Gouralnik A. S. et al. Formation of Mg2Si at high temperatures by fast deposition of Mg on Si (111) with wedge-shaped temperature distribution //Applied Surface Science. – 2018. – Т. 439. – С. 282-284.
2022. Transparent conducting materials (TCMs) provide low cost and effective solution for the modern optoelectronics. However, simultaneous high electrical conductivity and optical transparency in the near-infrared (NIR) and middle-infrared (MIR) spectral ranges remain challenging. This study proposes thin film of the semimetal calcium disilicide (CaSi2) with hR6 polymorph modification to fill this niche. Investigation of the electrical, magnetoresistance and magnetic properties shed light on its semimetal behavior. CaSi2 film grown on Si substrate demonstrates competitive electrical and optical properties from the NIR to MIR ranges compared to commonly used TCMs reaching maximum transmittance of 47% at an important telecommunication wavelength of 1550 nm in addition to the low sheet resistance of 6.6 Ω/sq, which results in high TCM figure of merit of 0.2 Ω−1. Moreover, demonstrated for the first time partial optical transparency of the CaSi2 in the visible range could significantly heighten its applicability for Si-based optoelectronics.
2022.
2020.