半导体纳米晶体网络中的金属-绝缘体转变

Metal-insulator transition in a semiconductor nanocrystal network.

作者信息

Greenberg Benjamin L, Robinson Zachary L, Ayino Yilikal, Held Jacob T, Peterson Timothy A, Mkhoyan K Andre, Pribiag Vlad S, Aydil Eray S, Kortshagen Uwe R

机构信息

Department of Mechanical Engineering, University of Minnesota, Minneapolis, MN, USA.

School of Physics and Astronomy, University of Minnesota, Minneapolis, MN, USA.

出版信息

Sci Adv. 2019 Aug 23;5(8):eaaw1462. doi: 10.1126/sciadv.aaw1462. eCollection 2019 Aug.

DOI:10.1126/sciadv.aaw1462

PMID:31467972

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6707780/

Abstract

Many envisioned applications of semiconductor nanocrystals (NCs), such as thermoelectric generators and transparent conductors, require metallic (nonactivated) charge transport across an NC network. Although encouraging signs of metallic or near-metallic transport have been reported, a thorough demonstration of nonzero conductivity, σ, in the 0 K limit has been elusive. Here, we examine the temperature dependence of σ of ZnO NC networks. Attaining both higher σ and lower temperature than in previous studies of ZnO NCs ( as low as 50 mK), we observe a clear transition from the variable-range hopping regime to the metallic regime. The critical point of the transition is distinctly marked by an unusual power law close to σ ∝ . We analyze the critical conductivity data within a quantum critical scaling framework and estimate the metal-insulator transition (MIT) criterion in terms of the free electron density, , and interparticle contact radius, ρ.

摘要

半导体纳米晶体（NCs）的许多设想应用，如热电发电机和透明导体，都需要通过NC网络进行金属性（非激活）电荷传输。尽管已有报道显示出金属或近金属传输的令人鼓舞的迹象，但在0 K极限下对非零电导率σ的全面证明却一直难以实现。在此，我们研究了ZnO NC网络中σ随温度的变化。与之前对ZnO NC的研究相比，我们实现了更高的σ和更低的温度（低至50 mK），观察到了从变程跳跃 regime到金属 regime的明显转变。转变的临界点由接近σ ∝ 的异常幂律明显标记。我们在量子临界标度框架内分析临界电导率数据，并根据自由电子密度和粒子间接触半径ρ估计金属-绝缘体转变（MIT）准则。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/89bb/6707780/cc14903e7f31/aaw1462-F1.jpg

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半导体纳米晶体网络中的金属-绝缘体转变

Metal-insulator transition in a semiconductor nanocrystal network.

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