Methods for Studying the Electrical Characteristics of the Epitaxial Layers of n/p-InxGa1 –xAs Solid Solutions for Large-Area Device Structures

A search for an optimum technique for studying the electrical characteristics of thin n / p -InxGa 1– x As semiconductor layers with different doping levels has been carried out. The primary task has been to measure the main electrical characteristics by different methods using resistivity (conducti...

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Bibliographic Details
Published in:Inorganic materials : applied research 2024-10, Vol.15 (5), p.1549-1557
Main Authors: Platonov, N. D., Lebedev, A. A., Matukhin, V. L., Smirnov, A. A., Ivanov, A. F.
Format: Article
Language:English
Subjects:
Chemistry
Chemistry and Materials Science
Industrial Chemistry/Chemical Engineering
Inorganic Chemistry
Materials Science
Methods of Study of Properties of Materials
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Summary:A search for an optimum technique for studying the electrical characteristics of thin n / p -InxGa 1– x As semiconductor layers with different doping levels has been carried out. The primary task has been to measure the main electrical characteristics by different methods using resistivity (conductivity), majority carrier concentration, dependence of the main electrical parameters on the doping type and level, and their comparison. Using the example of the p - and n -In 0.01 Ga 0.99 As solid solutions grown by MOCVD, a technique for studying the main electrical characteristics of the epitaxial layers has been proposed, which takes into account the estimated homogeneity on large-area samples. Results obtained by different methods, including photoluminescence, contactless surface resistivity measurement, van der Pauw (Hall effect), electrochemical capacitance–voltage profiling, and in situ control, have been compared. Basing on the results obtained and comparison with the literature data, conclusions have been drawn concerning the need, sufficiency, and complementarity of the methods for controlling and studying semiconductor epitaxial structures.
ISSN:2075-1133
2075-115X
DOI:10.1134/S2075113324701259