Electrodeposition of Iron Selenide: A Review

In recent years, metal selenide materials have attracted attention due to their wide application prospects. In this family of materials, FeSe is particularly studied since it is both a semiconductor used in solar cells and a superconductor with a critical transition temperature, Tc, of 8 K. For any...

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Veröffentlicht in:	Coatings (Basel) 2023-11, Vol.13 (11), p.1905
Hauptverfasser:	Piperno, Laura, Celentano, Giuseppe, Sotgiu, Giovanni
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical bonds Chemical vapor deposition Dielectric films Electrochemical reactions Electrodeposition Electrodes Laws, regulations and rules Molecular beam epitaxy Photovoltaic cells Selenium compounds Solar cells Thermodynamics Thin films Transition temperature
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creator	Piperno, Laura Celentano, Giuseppe Sotgiu, Giovanni
description	In recent years, metal selenide materials have attracted attention due to their wide application prospects. In this family of materials, FeSe is particularly studied since it is both a semiconductor used in solar cells and a superconductor with a critical transition temperature, Tc, of 8 K. For any envisaged application, the possibility of preparing large-area FeSe thin films at low cost is extremely appealing, and one possible technique suitable for this purpose is electrodeposition. Several groups have reported successful electrodeposition of FeSe, but the investigated systems are different in many aspects, and the results are difficult to compare. The aim of this review is to collect the available information on FeSe electrodeposition and the thermodynamic laws controlling this process; to catalog the literature pointing out the differences in the experimental procedure and how they influence the results; and to draw general conclusions, if any, on this topic.
doi_str_mv	10.3390/coatings13111905
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subjects	Chemical bonds Chemical vapor deposition Dielectric films Electrochemical reactions Electrodeposition Electrodes Laws, regulations and rules Molecular beam epitaxy Photovoltaic cells Selenium compounds Solar cells Thermodynamics Thin films Transition temperature
title	Electrodeposition of Iron Selenide: A Review
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