The multi-impurity system in CdSe nanoplatelets: electronic structure and thermodynamic properties

IF 2.4 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY Communications in Theoretical Physics Pub Date : 2024-02-29 DOI:10.1088/1572-9494/ad236a
D A Baghdasaryan, V A Harutynyan, E M Kazaryan, H A Sarkisyan
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Abstract

This paper theoretically studies the impurity states and the effects of impurity concentration and configuration on the optical, electrical, and statistical properties of CdSe nanoplatelets (NPLs). An image charge-based model of electron-impurity interaction is proposed. The charge-carrier energy spectra and corresponding wave functions depending on the impurity number and configuration are calculated. The electron binding energies are calculated for different NPL thicknesses. It is shown that the image charge-based interaction potential that arises due to the dielectric constants mismatch is much stronger than the interaction potential that does not take such a mismatch into account. Also, it is demonstrated that the binding energies are increasing with the number of impurities. We calculate the canonical partition function using the energy levels of the electron, which in turn is used to obtain the mean energy, heat capacity, and entropy of the non-interacting electron gas. The thermodynamic properties of the non-interacting electron gas that depend on the geometric parameters of the NPL, impurity number, configuration, and temperature are studied.
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碲化镉纳米片中的多纯度体系:电子结构和热力学性质
本文从理论上研究了杂质态以及杂质浓度和构型对碲化镉纳米片(NPLs)光学、电学和统计特性的影响。提出了基于图像电荷的电子-杂质相互作用模型。计算了电荷载流子能谱以及与杂质数量和构型有关的相应波函数。计算了不同 NPL 厚度下的电子结合能。结果表明,由于介电常数不匹配而产生的基于图像电荷的相互作用势要比不考虑这种不匹配的相互作用势强得多。此外,研究还证明,结合能随着杂质数量的增加而增加。我们利用电子的能级计算了规范分配函数,进而得到了非相互作用电子气的平均能量、热容量和熵。我们还研究了非相互作用电子气的热力学性质,这些性质取决于 NPL 的几何参数、杂质数量、构型和温度。
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
Communications in Theoretical Physics
Communications in Theoretical Physics 物理-物理:综合
CiteScore
5.20
自引率
3.20%
发文量
6110
审稿时长
4.2 months
期刊介绍: Communications in Theoretical Physics is devoted to reporting important new developments in the area of theoretical physics. Papers cover the fields of: mathematical physics quantum physics and quantum information particle physics and quantum field theory nuclear physics gravitation theory, astrophysics and cosmology atomic, molecular, optics (AMO) and plasma physics, chemical physics statistical physics, soft matter and biophysics condensed matter theory others Certain new interdisciplinary subjects are also incorporated.
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