Theoretical Structural Characterization of XIn2Se4 Ternary Semiconductors Wanted to be Grow Using the Bridgman/Stockbarger Technique

Theoretical Structural Characterization of XIn2Se4 Ternary Semiconductors Wanted to be Grow Using the Bridgman/Stockbarger Technique

The importance of semiconductors paving the way for nano and optoelectronic technology has recently been increasing. But, producing them easily and having their vast application fields are most important. For that reason, the crystals have a wide application field and their characteristics which are...

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Bibliographic Details
Main Author: Bekir Gürbulak
Format: Article
Language:English
Published: Atatürk University 2024-06-01
Series:Journal of Anatolian Physics and Astronomy
Subjects:
grown xin2se4
bridgman/stockbarger technique
theoretical structural characterization
xin2se4 büyütme
bridgman/stockbarger tekniği
teorik yapısal karakterizasyon
Online Access:https://dergipark.org.tr/tr/download/article-file/4026816
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Summary:The importance of semiconductors paving the way for nano and optoelectronic technology has recently been increasing. But, producing them easily and having their vast application fields are most important. For that reason, the crystals have a wide application field and their characteristics which are determined are needed. Some researchers (Irie et al., 1979; Shih et al., 1986) have suggested that the crystals grown should be grown in a single ampoule and a single stage, considering the idea that it would cause selenium loss. Considering this situation, it was decided to grow XIn2Se4 crystal with this method. XIn2Se4 (X=Cu, Mn, Al, Fe) single crystals used in this research were grown using the Bridgman/Stockbarger method. All of the samples were freshly and gently cleaved with a razor blade from the grown ingots and no further polishing and cleaning treatments were required because of the natural mirror-like cleavage faces. The Samples were cleaved along the cleavage planes (001). In this study, single crystal growth was done in a single step. The structure of XIn2Se4 semiconductors was analysed theoretically using x-ray diffractometer (XRD), scanning electron microscopy (SEM), energy dispersive x-ray (EDX) and Raman spectroscopy techniques.
ISSN:2791-8718

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