Synthesis of Copper-Telluride (CuTe) Nanowires and its Characterization using He-Ne Laser

S. Arya, Saleem Khan, P. Lehana
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引用次数: 1

Abstract

Synthesis of copper-telluride nanowires has been carried out using template -assisted electrodeposition technique. The polycarbonate template is supported on a copper substrate. The synthesized nanowires were characterized using scanning electron microscopy (SEM) and X-ray diffractometer (XRD). The SEM image has confirmed the satisfactory deposition of the CuTe nanowires having 100 nm diameters as expected. The investigations for the optical properties of the nanowires werecarried out using He-Ne laser. The analysis of the images so obtained by a high resolutiondigital camera at different orientations with respect to the incident light has shown that CuTe nanowires exhibit a distinct intensity patterns as compared to the patterns obtained withthe available copperthin film depositions.
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碲化铜纳米线的合成及其He-Ne激光表征
采用模板辅助电沉积技术合成了碲化铜纳米线。所述聚碳酸酯模板支撑在铜基板上。利用扫描电子显微镜(SEM)和x射线衍射仪(XRD)对合成的纳米线进行了表征。扫描电镜图像证实了令人满意的沉积,直径为100 nm的纳米线如预期的那样。利用氦氖激光对纳米线的光学性质进行了研究。对高分辨率数码相机在不同方向上获得的关于入射光的图像的分析表明,与可用的铜薄膜沉积获得的模式相比,CuTe纳米线表现出不同的强度模式。
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来源期刊
International Journal of Online Engineering
International Journal of Online Engineering COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
自引率
0.00%
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0
审稿时长
12 weeks
期刊介绍: We would like to inform you, that iJOE, the ''International Journal of Online Engineering'' will accept now also papers in the field of Biomedical Engineering and e-Health''. iJOE will therefore be published from January 2019 as the ''International Journal of Online and Biomedical Engineering''. The objective of the journal is to publish and discuss fundamentals, applications and experiences in the fields of Online Engineering (remote engineering, virtual instrumentation and online simulations, etc) and Biomedical Engineering/e-Health. The use of cyber-physical systems, virtual and remote controlled devices and remote laboratories are the directions for advanced teleworking/e-working environments. In general, online engineering is a future trend in engineering and science. Due to the growing complexity of engineering tasks, more and more specialized and expensive equipment as well as software tools and simulators, shortage of highly qualified staff, and the demands of globalization and collaboration activities, it become essential to utilize cyber cloud technologies to maximize the use of engineering resources. Online engineering is the way to address these issues. Considering these, one focus of the International Journal of Online and Biomedical Engineering is to provide a platform to publish fundamentals, applications and experiences in the field of Online Engineering, for example: Remote Engineering Internet of Things Cyber-physical Systems Digital Twins Industry 4.0 Virtual Instrumentation. An important application field of online engineering tools and principles are Biomedical Engineering / e-Health. Topics we are interested to publish are: Automation Technology for Medical Applications Big Data in Medicine Biomedical Devices Biosensors Biosignal Processing Clinical Informatics Computational Neuroscience Computer-Aided Surgery.
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