Diluted Magnetic Semiconductors Nanocrystals: Saturation and Modulation

Nanocrystals [Working Title] Pub Date : 2021-04-13 DOI:10.5772/INTECHOPEN.96679

Anielle C. A. Silva, Amanda I.S. Barbosa, A. S. Silva, Elisson A. Batista, T. D. Rezende, É. V. Guimarães, Ricardo S. Silva, N. Dantas

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引用次数: 1

Abstract

Diluted Magnetic Semiconductor (DMS) nanocrystals are a new class of materials formed by doping the semiconductor with transition metals (TM), which gives interesting magneto-optical properties. These properties are attributed to the exchange interaction between the pure semiconductor’s sp-electrons and the localized TM d-electrons. This book chapter shows exciting results of new DMS developed by the group, both in powder form and embedded in glassy systems. Depending on the concentration of doping ions, saturation of the incorporation of substitutional and interstitial sites in the nanocrystal structure may occur, forming other nanocrystals. In this context, we investigated the doping saturation limit in nanopowders of DMS Zn1-xMnxO NCs and Zn1-xMnxTe, Zn0.99-xMn0.01CoxTe, and Bi2-xCoxS NCs synthesized in glassy matrices. Thus, the sites’ saturation into the crystalline lattice of nanocrystals is a topic little reported in the literature, and we will comment on this work. Therefore, we will show results from the group about the modulation and saturation in diluted magnetic semiconductors nanocrystals in this work.

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稀释磁性半导体纳米晶体:饱和和调制

稀释磁性半导体(DMS)纳米晶体是一类通过在半导体中掺杂过渡金属(TM)而形成的新型材料，具有有趣的磁光性质。这些特性归因于纯半导体的sp电子与定域TM d电子之间的交换相互作用。本书的这一章展示了由该小组开发的令人兴奋的新DMS的结果，无论是粉末形式还是嵌入玻璃系统。根据掺杂离子浓度的不同，纳米晶体结构中取代位和间隙位的结合可能会发生饱和，形成其他纳米晶体。在此背景下，我们研究了在玻璃基质中合成的DMS Zn1-xMnxO纳米粉体和Zn1-xMnxTe、Zn0.99-xMn0.01CoxTe和Bi2-xCoxS纳米粉体的掺杂饱和极限。因此，位点在纳米晶体晶格中的饱和是一个文献中很少报道的话题，我们将对这项工作进行评论。因此，我们将在本工作中展示该小组关于稀释磁性半导体纳米晶体的调制和饱和的结果。

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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Nanocrystals [Working Title]

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