Investigations on the defect structures for Mn2+ in CdSe nanocrystals and bulk materials and the criterion of occupation for Mn2+ in CdX (X = S, Se, Te) nanocrystals

IF 1.9 3区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY
Guo-Liang Li, Shao-Yi Wu, Kai-Min Fan
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Abstract

The spin Hamiltonian parameters and defect structures are theoretically studied for the substitutional Mn2+ at the core of CdSe nanocrystals and in the bulk materials from the perturbation calculations of spin Hamiltonian parameters for trigonal tetrahedral 3d5 clusters. Both the crystal-field and charge transfer contributions are taken into account in the calculations from the cluster approach. The impurity-ligand bond angles are found to be about 1.84° larger and 0.10° smaller in the CdSe:Mn2+ nanocrystals and bulk materials, respectively, than those (≈109.37°) of the host Cd2+ sites. The quantitative criterion of occupation (at the core or surface) for Mn2+ in CdX (X = S, Se, Te) nanocrystals is presented for the first time based on the inequations of hyperfine structure constants (HSCs). This criterion is well supported by the experimental HSCs data of Mn2+ in CdX nanocrystals. The previous assignments of signals SI as Mn2+ at the core of CdS nanocrystals are renewed as Mn2+ at the surface based on the above criterion. The present studies would be helpful to achieve convenient determination of occupation for Mn2+ impurities in CdX semiconductor nanocrystals by means of spectral (e.g., HSCs) analysis.

Abstract Image

对 CdSe 纳米晶体和块体材料中 Mn2+ 缺陷结构的研究以及 CdX(X = S、Se、Te)纳米晶体中 Mn2+ 的占据标准
通过对三棱四面体 3d5 团簇自旋哈密顿参数的扰动计算,从理论上研究了 CdSe 纳米晶体核心和块体材料中的置换 Mn2+ 的自旋哈密顿参数和缺陷结构。在簇方法的计算中,晶体场和电荷转移的贡献都被考虑在内。发现在 CdSe:Mn2+ 纳米晶体和块体材料中,杂质-配体键角分别比主 Cd2+ 位点的键角(≈109.37°)大约 1.84°和小约 0.10°。根据超正弦结构常数(HSCs)的不等式,首次提出了 CdX(X = S、Se、Te)纳米晶体中 Mn2+占据(核心或表面)的定量标准。CdX 纳米晶体中 Mn2+ 的超频结构常数实验数据充分证明了这一标准。根据上述标准,以前将 SI 信号指定为 CdS 纳米晶体核心的 Mn2+,现在则重新指定为表面的 Mn2+。本研究有助于通过光谱(如 HSCs)分析,方便地确定 CdX 半导体纳米晶体中 Mn2+ 杂质的占位。
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来源期刊
CiteScore
4.70
自引率
10.00%
发文量
99
审稿时长
1 months
期刊介绍: MRC is devoted to the rapid publication of papers which are concerned with the development of magnetic resonance techniques, or in which the application of such techniques plays a pivotal part. Contributions from scientists working in all areas of NMR, ESR and NQR are invited, and papers describing applications in all branches of chemistry, structural biology and materials chemistry are published. The journal is of particular interest not only to scientists working in academic research, but also those working in commercial organisations who need to keep up-to-date with the latest practical applications of magnetic resonance techniques.
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