High Purity Germanium, a Review on Principle Theories and Technical Production Methodologies

结晶过程及技术期刊(英文) Pub Date : 2017-08-22 DOI:10.4236/JCPT.2017.74005

Danilo C. Curtolo, S. Friedrich, B. Friedrich

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引用次数: 24

Abstract

Since the early 1950’s the use of Germanium has been continuously growing as new applications are being developed. Its first commercial usage as the main material, from which the semiconductors were made, was later replaced by Silicon. The applications were then shifted to a key component in fiber optics, infrared night vision devices and space solar cells, as well as a polymerization catalyst for polyethylene terephthalate (PET). With the advance development in new technologies, the attentions have been brought back to Germanium due to its excellent semiconductor properties. New applications on the field of high efficiency solar cells, SiGe based chips, LED technologies, etc., are being developed and show a great potential. According to DERA (Deutsche Rohstoffagentur/German Mineral Resources Agency), the demand for Ge will grow considerably by 2030, pushed mostly by the increase in the fiber optics market and advanced materials sector [1]. Therefore, this paper focuses on an overview of the production chain of Germanium, especially from its concentrate up to the single crystal growth of its valuable ultra-pure metallic form to be used in high technological applications.

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高纯锗的原理理论与工艺生产方法综述

自20世纪50年代初以来，随着新应用的开发，锗的使用一直在持续增长。它作为制造半导体的主要材料首次在商业上使用，后来被硅取代。然后，应用转移到光纤、红外夜视设备和太空太阳能电池的关键部件，以及聚对苯二甲酸乙二醇酯（PET）的聚合催化剂上。随着新技术的发展，锗因其优异的半导体性能而引起人们的关注。高效太阳能电池、硅锗基芯片、LED技术等领域的新应用正在开发中，并显示出巨大的潜力。根据DERA（Deutsche Rohstoffagentur/德国矿产资源局）的数据，到2030年，对锗的需求将大幅增长，主要受光纤市场和先进材料行业增长的推动[1]。因此，本文重点概述了锗的生产链，特别是从锗的浓缩到其有价值的超纯金属形式的单晶生长，以用于高科技应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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结晶过程及技术期刊(英文)

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