The ab initio study of n-type nitrogen and gallium co-doped diamond

IF 1.9 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Semiconductor Science and Technology Pub Date : 2024-09-11 DOI:10.1088/1361-6641/ad7673

Zhen Wang, Peng Jin, Pengfei Qu, Dunzhou Xu, Xiaodi Huo, Ju Wu and Zhanguo Wang

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引用次数: 0

Abstract

In order to better understand the influence of different complexes on the diamond co-doping system, N and Ga are chosen as co-dopants in diamond. The properties of several substitutional NmGan complexes with vacancy (Va) in the bulk diamond have been investigated by ab initio density functional technique, including their optimized lattice structures, formation energies, binding energies and thermodynamic transition levels. The calculational results show that NmGan complexes in the donor–acceptor–donor (DAD) configuration can provide ionization energies similar to phosphorus-doped diamond. All other complexes provide deep impurity levels. For the DAD configuration, the adsorption process on the diamond surface has been studied to demonstrate the feasibility of growing diamonds containing N-Ga-N in experiments. The desired complex configuration is not uniquely present in the co-doped system. Investigating these properties of different complexes beyond NGaN provides insight into the N and Ga codoped diamond system, yielding a more comprehensive understanding of its potential and limitations. Our research ideas can also be extended to other co-doped systems and help to evaluate other potential co-dopants for diamond.

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氮和镓共掺杂氮型金刚石的 ab initio 研究

为了更好地了解不同配合物对金刚石共掺杂体系的影响，我们选择 N 和 Ga 作为金刚石中的共掺杂剂。研究人员利用 ab initio 密度泛函技术研究了大块金刚石中具有空位（Va）的几种取代型 NmGan 复合物的性质，包括它们的优化晶格结构、形成能、结合能和热力学转变水平。计算结果表明，供体-受体-供体（DAD）构型的 NmGan 复合物可提供与掺磷金刚石相似的电离能。所有其他络合物都能提供较深的杂质水平。对于 DAD 构型，我们研究了金刚石表面的吸附过程，以证明在实验中生长含有 N-Ga-N 的金刚石的可行性。在共掺杂体系中，所需的络合物构型并不是唯一存在的。研究 NGaN 以外不同复合物的这些特性，有助于深入了解 N 和 Ga 共掺杂金刚石体系，从而更全面地了解其潜力和局限性。我们的研究思路还可扩展到其他共掺杂体系，并有助于评估金刚石的其他潜在共掺杂剂。

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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来源期刊

Semiconductor Science and Technology 工程技术-材料科学：综合

CiteScore

4.30

自引率

5.30%

发文量

216

审稿时长

2.4 months

期刊介绍： Devoted to semiconductor research, Semiconductor Science and Technology''s multidisciplinary approach reflects the far-reaching nature of this topic. The scope of the journal covers fundamental and applied experimental and theoretical studies of the properties of non-organic, organic and oxide semiconductors, their interfaces and devices, including: fundamental properties materials and nanostructures devices and applications fabrication and processing new analytical techniques simulation emerging fields: materials and devices for quantum technologies hybrid structures and devices 2D and topological materials metamaterials semiconductors for energy flexible electronics.