Wet Chemical Synthesis of AlxGa1−xAs Nanostructures: Investigation of Properties and Growth Mechanisms

Yana Suchikova; Sergii Kovachov; Ihor Bohdanov; Marina Koņuhova; Yaroslav Zhydachevskyy; Kuat Kumarbekov; Vladimirs Pankratovs; Anatolijs Popovs

doi:10.3390/cryst14070633

Wet Chemical Synthesis of AlxGa1−xAs Nanostructures: Investigation of Properties and Growth Mechanisms

Yana Suchikova
, Sergii Kovachov
, Ihor Bohdanov
, Marina Koņuhova
, Yaroslav Zhydachevskyy
, Kuat Kumarbekov
, Vladimirs Pankratovs
, Anatolijs Popovs^*

^*Corresponding author for this work

Berdyansk State Pedagogical University
Institute of Physics of the Polish Academy of Sciences
L.N. Gumilyov Eurasian National University

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

This study focuses on the wet chemical synthesis of Al_xGa_1−xAs nanostructures, highlighting how different deposition conditions affect the film morphology and material properties. Electrochemical etching was used to texture GaAs substrates, enhancing mechanical adhesion and chemical bonding. Various deposition regimes, including voltage switching, gradual voltage increase, and pulsed voltage, were applied to explore their impact on the film growth mechanisms. SEM analysis revealed distinct morphologies, EDX confirmed variations in aluminum content, Raman spectroscopy detected structural disorders, and XRD analysis demonstrated peak position shifts. The findings emphasize the versatility and cost-effectiveness of wet electrochemical methods for fabricating high-quality Al_xGa_1−xAs films with tailored properties, showing potential for optoelectronic devices, high-efficiency solar cells, and other advanced semiconductor applications.

Original language	English
Article number	633
Pages (from-to)	1-23
Journal	Crystals
Volume	14
Issue number	7
DOIs	https://doi.org/10.3390/cryst14070633
Publication status	Published - Jul 2024

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Al Ga As
EDX
electrochemical deposition
electrochemical etching
morphology
Raman spectroscopy
SEM
semiconductors
wet chemical synthesis
XRD

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10.3390/cryst14070633

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@article{b3d10d5e541d4836a8a10bc9fd587734,

title = "Wet Chemical Synthesis of AlxGa1−xAs Nanostructures: Investigation of Properties and Growth Mechanisms",

abstract = "This study focuses on the wet chemical synthesis of AlxGa1−xAs nanostructures, highlighting how different deposition conditions affect the film morphology and material properties. Electrochemical etching was used to texture GaAs substrates, enhancing mechanical adhesion and chemical bonding. Various deposition regimes, including voltage switching, gradual voltage increase, and pulsed voltage, were applied to explore their impact on the film growth mechanisms. SEM analysis revealed distinct morphologies, EDX confirmed variations in aluminum content, Raman spectroscopy detected structural disorders, and XRD analysis demonstrated peak position shifts. The findings emphasize the versatility and cost-effectiveness of wet electrochemical methods for fabricating high-quality AlxGa1−xAs films with tailored properties, showing potential for optoelectronic devices, high-efficiency solar cells, and other advanced semiconductor applications.",

keywords = "Al Ga As, EDX, electrochemical deposition, electrochemical etching, morphology, Raman spectroscopy, SEM, semiconductors, wet chemical synthesis, XRD",

author = "Yana Suchikova and Sergii Kovachov and Ihor Bohdanov and Marina Koņuhova and Yaroslav Zhydachevskyy and Kuat Kumarbekov and Vladimirs Pankratovs and Anatolijs Popovs",

note = "Publisher Copyright: {\textcopyright} 2024 by the authors.",

year = "2024",

month = jul,

doi = "10.3390/cryst14070633",

language = "English",

volume = "14",

pages = "1--23",

journal = "Crystals",

issn = "2073-4352",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "7",

}

TY - JOUR

T1 - Wet Chemical Synthesis of AlxGa1−xAs Nanostructures: Investigation of Properties and Growth Mechanisms

AU - Suchikova, Yana

AU - Kovachov, Sergii

AU - Bohdanov, Ihor

AU - Koņuhova, Marina

AU - Zhydachevskyy, Yaroslav

AU - Kumarbekov, Kuat

AU - Pankratovs, Vladimirs

AU - Popovs, Anatolijs

PY - 2024/7

Y1 - 2024/7

N2 - This study focuses on the wet chemical synthesis of AlxGa1−xAs nanostructures, highlighting how different deposition conditions affect the film morphology and material properties. Electrochemical etching was used to texture GaAs substrates, enhancing mechanical adhesion and chemical bonding. Various deposition regimes, including voltage switching, gradual voltage increase, and pulsed voltage, were applied to explore their impact on the film growth mechanisms. SEM analysis revealed distinct morphologies, EDX confirmed variations in aluminum content, Raman spectroscopy detected structural disorders, and XRD analysis demonstrated peak position shifts. The findings emphasize the versatility and cost-effectiveness of wet electrochemical methods for fabricating high-quality AlxGa1−xAs films with tailored properties, showing potential for optoelectronic devices, high-efficiency solar cells, and other advanced semiconductor applications.

AB - This study focuses on the wet chemical synthesis of AlxGa1−xAs nanostructures, highlighting how different deposition conditions affect the film morphology and material properties. Electrochemical etching was used to texture GaAs substrates, enhancing mechanical adhesion and chemical bonding. Various deposition regimes, including voltage switching, gradual voltage increase, and pulsed voltage, were applied to explore their impact on the film growth mechanisms. SEM analysis revealed distinct morphologies, EDX confirmed variations in aluminum content, Raman spectroscopy detected structural disorders, and XRD analysis demonstrated peak position shifts. The findings emphasize the versatility and cost-effectiveness of wet electrochemical methods for fabricating high-quality AlxGa1−xAs films with tailored properties, showing potential for optoelectronic devices, high-efficiency solar cells, and other advanced semiconductor applications.

KW - Al Ga As

KW - EDX

KW - electrochemical deposition

KW - electrochemical etching

KW - morphology

KW - Raman spectroscopy

KW - SEM

KW - semiconductors

KW - wet chemical synthesis

KW - XRD

UR - https://www.mdpi.com/2073-4352/14/7/633

UR - https://www.scopus.com/pages/publications/85199589496

U2 - 10.3390/cryst14070633

DO - 10.3390/cryst14070633

M3 - Article

SN - 2073-4352

VL - 14

SP - 1

EP - 23

JO - Crystals

JF - Crystals

IS - 7

M1 - 633

ER -

Wet Chemical Synthesis of AlxGa1−xAs Nanostructures: Investigation of Properties and Growth Mechanisms

Abstract

UN SDGs

Keywords

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