High-frequency complex impedance analysis of the two-dimensional semiconducting MXene Ti2CO2

MXenes公司 材料科学 德鲁德模型 电子迁移率 从头算 电导率 散射 声子散射 密度泛函理论 从头算量子化学方法 凝聚态物理 光电子学 纳米技术 热导率 化学 计算化学 物理 物理化学 光学 有机化学 复合材料 分子
作者
Anup Kumar Mandia,Rohit Kumar,Namitha Anna Koshi,Seung‐Cheol Lee,Satadeep Bhattacharjee,Bhaskaran Muralidharan
出处
期刊:Physica Scripta [IOP Publishing]
卷期号:98 (9): 095955-095955 被引量:3
标识
DOI:10.1088/1402-4896/acf07c
摘要

Abstract The two-dimensional compound group of MXenes, which exhibit unique optical, electrical, chemical, and mechanical properties, are an exceptional class of transition metal carbides and nitrides. In addition to traditional applications in Li-S, Li-ion batteries, conductive electrodes, hydrogen storage, and fuel cells, the low lattice thermal conductivity coupled with high electron mobility in the semiconducting oxygen-functionalized MXene Ti 2 CO 2 has led to the recent interests in high-performance thermoelectric and nanoelectronic devices. Apart from the above dc- transport applications, it is crucial to also understand ac- transport across them, given the growing interest in applications surrounding wireless communications and transparent conductors. In this work, we investigate using our recently developed ab initio transport model, the real and imaginary components of electron mobility and conductivity to conclusively depict carrier transport beyond the room temperature for frequency ranges upto the terahertz range. We also contrast the carrier mobility and conductivity with respect to the Drude’s model to depict its inaccuracies for a meaningful comparison with experiments. Our calculations show the effect of acoustic deformation potential scattering, piezoelectric scattering, and polar optical phonon scattering mechanisms. Without relying on experimental data, our model requires inputs calculated from first principles using density functional theory. Our results set the stage for providing ab initio based ac- transport calculations given the current research on MXenes for high-frequency applications.
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