Imamov Erkin Z.
Dr. Sci. (Phys.-Math.), Professor; Department of Physics; Tashkent University of Information Technologies named after Muhammad al-Khwarizmi (TUIT) of the Ministry of Digital Technologies of the Republic of Uzbekistan; Tashkent, Republic of Uzbekistan
Ташкентский университет информационных технологий имени Мухаммада ал-Хоразмий (ТУИТ) Министерства цифровых технологий Республики Узбекистан , г. Ташкент, Республика Узбекистан
ARTICLES:
The teoretical model of new contact structure «nanoobject-semiconductor»
Computational Nanotechnology — Issue №4 2015: 51-63
THE DIFFERENCE BETWEEN THE CONTACT STRUCTURE WITH NANOSIZE INCLUSIONS FROM THE SEMICONDUCTOR PHOTODIODES
Computational Nanotechnology — Issue №3 2016: 196-202
UNIQUE OPPORTUNITY TO CREATE CHEAP BUT EFFECTIVE SILICON SOLAR CELLS
Computational Nanotechnology — Issue №1 2017: 56-60
ANALYSIS OF THE ROLE OF NANO-OBJECTS IN THE CHEAPER SILICON SOLAR CELLS
Computational Nanotechnology — Issue №3 2017: 14-17
EXPANSION OF THE EFFECTIVE ABSORPTION SPECTRUM IN SOLAR CELLS WITH NANOINCLUSIONS
Computational Nanotechnology — Issue №1 2018: 155-157
SOLAR ELEMENTS BASED ON NONCRYSTALLIC SILICON WITH NANOSTRUCTURED IMPACTS
Computational Nanotechnology — Issue №3 2018: 85-90
Mathematical modeling of optimal parameters of atmospheric influence on the properties of the solar module
Computational Nanotechnology — Issue №2 2020: 58-63
Analysis of the Efficiency of a Solar Cell with Nano-Dimensional Hetero Transitions
Computational Nanotechnology — Issue №4 2021: 42-50
Modeling of the Electrical Properties of a Solar Cell with Many Nano-hetero Junctions
Computational Nanotechnology — Issue №4 2022: 70-77
Factors of Efficient Generation of Electricity in a Solar Cell with Nanohetero Junctions
Computational Nanotechnology — Issue №1 2023: 119-127
Electrophysical Properties of a Solar Cell with Non-Traditional Contact Structures
Computational Nanotechnology — Issue №4 2023: 110-121
Study of Electrophysical Properties of a Solar Cell with Nano-hetera Junctions on a Non-crystalline Silicon Substrate
Computational Nanotechnology — Issue №3 2025: 191-202
