Electrochemical Growth and Structural Study of the AlxGa1−xAs Nanowhisker Layer on the GaAs Surface-Reference-Cited by-同舟云学术

Electrochemical Growth and Structural Study of the AlxGa1−xAs Nanowhisker Layer on the GaAs Surface

Published:2023-08-22 Issue:5 Volume:7 Page:153
ISSN:2504-4494
Container-title:Journal of Manufacturing and Materials Processing
language:en
Short-container-title:JMMP

Author:

Suchikova Yana¹^ORCID,Kovachov Sergii¹^ORCID,Bohdanov Ihor¹,Abdikadirova Anar A.²,Kenzhina Inesh³⁴,Popov Anatoli I.²⁵^ORCID

Affiliation:

1. The Department of Physics and Methods of Teaching Physics, Berdyansk State Pedagogical University, 71100 Berdyansk, Ukraine

2. Faculty of Economics, Department of State Audit, L.N. Gumilyov Eurasian National University, 2 Saybayev Street, Astana 010000, Kazakhstan

3. Department of General Physics, Satbayev University, Almaty 050032, Kazakhstan

4. Advanced Electronics Development Laboratory, Kazakh-British Technical University, Almaty 050000, Kazakhstan

5. Institute of Solid State Physics, University of Latvia, LV-1063 Riga, Latvia

Abstract

This work presents a novel, cost-effective method for synthesizing AlxGa1−xAs nanowhiskers on a GaAs surface by electrochemical deposition. The process begins with structuring the GaAs surface by electrochemical etching, forming a branched nanowhisker system. Despite the close resemblance of the crystal lattices of AlAs, GaAs, and AlxGa1−xAs, our study highlights the formation of nanowhiskers instead of layer-by-layer film growth. X-ray diffraction analysis and photoluminescence spectrum evaluations confirm the synthesized structure’s crystallinity, uniformity, and bandgap characteristics. The unique morphology of the nanowhiskers offers promising implications for solar cell applications because of the increased light absorption potential and reduced surface recombination energy losses. We conclude by emphasizing the need for further studies on the growth mechanisms of AlxGa1−xAs nanowhiskers, adjustments of the “x” parameter during electrochemical deposition, and detailed light absorption properties of the formed compounds. This research contributes to the field of wideband materials, particularly for solar energy applications, highlighting the potential of electrochemical deposition as a flexible and economical fabrication method.

Funder

Ministry of Education and Science of Ukraine

COST Action

Horizon 2020

Publisher

MDPI AG

Subject

Industrial and Manufacturing Engineering,Mechanical Engineering,Mechanics of Materials

Link

https://www.mdpi.com/2504-4494/7/5/153/pdf

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