2019-1(30)

Design, manufacturing and commissioning of nuclear industry equipment

Article Name10.26583/GNS-2019-01-07
Elements for Solar Batteries on the GaInAs Nanostructure Basis Obtained by Ion-Beam Deposition Method
AuthorsI.A. Sysoev*1, D.A. Gusev**2, A.E. Dembitsky**3, A.Yu. Smolin**4, V.F. Kataev**5
Address

*Federal State Autonomous Educational Institution of Higher Professional Education "North Caucasian Federal University", Pushkin street, 1, Stavropol, Russia 355009

1ORCID iD: 0000-0001-5415-0782

WoS Researcher ID: Q-1522-2015

e-mail: eianpisia@yandex.ru

**Volgodonsk Engineering-Technical Institute – Branch of NRNU «MEPhI»,

Lenin street, 73/94, Volgodonsk, Russia 347360

2ORCID iD: 0000-0002-4997-9497

WoS Researcher ID: M-9350-2016

e-mail: dmon_@mail.ru

3ORCID iD: 0000-0003-4616-621X

WoS Researcher ID: O-3133-2018

e-mail: demartev@gmail.com

4ORCID iD: 0000-0002-0148-2086

WoS Researcher ID: F-4089-2017

e-mail: smol_vol@mail.ru

5ORCID iD:0000-0001-5217-0991

WoS Researcher ID:Q-1673-2018

e-mail: kataev.v.f.@gmail.com

AbstractThe study experimentally showed the possibility of quantum dots formation based on three-component InGaAs solid solutions of various compositions on the surface of GaAs by the method of ion-beam deposition of quantum dots. The features of the technology of ion – beam deposition are considered. The optimal ratios of the of the GaInAs solid solution components are determined at which the quantum dots are characterized by the smallest dimensions, and the technological conditions are established where their density increases. The results of the study of the photoluminescence spectra and the surface morphology of the obtained nanostructures are presented. The results obtained may be of practical interest as materials for the formation of highly efficient solar cell panels on their basis, which are widely used as alternative environmentally friendly energy sources in the energy sector at present .
Keywordssolar cells, nanoscale structures, multicomponent solid solutions, ion beam deposition, technology, materials for photovoltaic cells.
LanguageRussian
References
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