化学计量定制非晶Cu-S薄膜的MOCVD沉积

IF 1.3 4区材料科学 Q3 CRYSTALLOGRAPHY

Phase Transitions Pub Date : 2023-03-18 DOI:10.1080/01411594.2023.2189113

B. Olofinjana, T. G. Fabunmi, F. O. Efe, O. Fasakin, A. C. Adebisi, M. Eleruja, O. O. Akinwunmi, E. Ajayi

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引用次数: 0

摘要

沉积技术和相关的沉积参数在决定薄膜的化学计量以及薄膜性能方面起着重要作用。在此，使用单一固体源前体，通过金属有机化学气相沉积（MOCVD）在350至450°C的温度下在钠铝玻璃基板上沉积Cu-S薄膜。使用卢瑟福背散射光谱（RBS）、X射线衍射（XRD）、扫描电子显微镜（SEM）、紫外-可见分光光度法和四点探针技术对沉积的Cu-S薄膜进行了表征。RBS表征表明，当厚度从480增加到655时，薄膜是非化学计量的 nm。扫描电镜显示显微照片与温度有关。2.75和3.80之间的直接带隙值随着沉积温度的升高而获得eV。电气特性显示出欧姆特性，其中电阻率从18.50下降 × 10−3Ωcm至8.20 × 10−3 Ωcm。

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Deposition of stoichiometry – tailored amorphous Cu-S thin films by MOCVD technique

ABSTRACT Deposition technique and associated deposition parameters play significant roles in determining the stoichiometry of thin films, and consequently, their properties. Herein, Cu-S thin films were deposited on a sodalime glass substrate via metal organic chemical vapour deposition (MOCVD) at temperatures between 350 and 450°C using a single solid source precursor. The deposited Cu-S films were characterized using Rutherford backscattering spectroscopy (RBS), X-ray diffraction (XRD), scanning electron microscopy (SEM), UV–visible spectrophotometry, and four-point probe technique. RBS characterization revealed that the films are non-stoichiometry while thickness increased from 480 to 655 nm as deposition temperature increased. SEM revealed micrographs that are temperature-dependent. A direct band gap value between 2.75 and 3.80 eV was obtained as the deposition temperature increased. Electrical characterization showed ohmic characteristics in which, resistivity decreased from 18.50 × 10−3 Ωcm to 8.20 × 10−3 Ωcm as deposition temperature increased.

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来源期刊

Phase Transitions 物理-晶体学

CiteScore

3.00

自引率

6.20%

发文量

审稿时长

1.4 months

期刊介绍： Phase Transitions is the only journal devoted exclusively to this important subject. It provides a focus for papers on most aspects of phase transitions in condensed matter. Although emphasis is placed primarily on experimental work, theoretical papers are welcome if they have some bearing on experimental results. The areas of interest include: -structural phase transitions (ferroelectric, ferroelastic, multiferroic, order-disorder, Jahn-Teller, etc.) under a range of external parameters (temperature, pressure, strain, electric/magnetic fields, etc.) -geophysical phase transitions -metal-insulator phase transitions -superconducting and superfluid transitions -magnetic phase transitions -critical phenomena and physical properties at phase transitions -liquid crystals -technological applications of phase transitions -quantum phase transitions Phase Transitions publishes both research papers and invited articles devoted to special topics. Major review papers are particularly welcome. A further emphasis of the journal is the publication of a selected number of small workshops, which are at the forefront of their field.