Robust Coulomb Gap and Varied-temperature Study of Epitaxial 1T'-WSe$_2$ Monolayers

arXiv - PHYS - Mesoscale and Nanoscale Physics Pub Date : 2024-09-15 DOI:arxiv-2409.09698

Wang Chen, Mengli Hu, Junyu Zong, Xuedong Xie, Wei Ren, Qinghao Meng, Fan Yu, Qichao Tian, Shaoen Jin, Xiaodong Qiu, Kaili Wang, Can Wang, Junwei Liu, Fang-Sen Li, Li Wang, Yi Zhang

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Abstract

The transition metal dichalcogenides (TMDCs) with a 1T' structural phase are predicted to be two-dimensional topological insulators at zero temperature. Although the quantized edge conductance of 1T'-WTe$_2$ has been confirmed to survive up to 100 K, this temperature is still relatively low for industrial applications. Addressing the limited studies on temperature effects in 1T'-TMDCs, our research focuses on the electronic and crystal properties of the epitaxial 1T'-WSe$_2$ monolayers grown on bilayer graphene (BLG) and SrTiO$_3$(100) substrates at various temperatures. For the 1T'-WSe$_2$ grown on BLG, we observed a significant thermal expansion effect on its band structures with a thermal expansion coefficient of $\sim$60$\times$10$^{-6}$ K$^{-1}$. In contrast, the 1T'-WSe$_2$ grown on SrTiO$_3$(100) exhibits minimal changes with varied temperatures due to the enhanced strain exerted by the substrate. Besides, A significant Coulomb gap (CG) was observed pinned at the Fermi level in the angle-resolved photoemission spectroscopy (ARPES) and scanning tunneling spectroscopy (STS). The CG was founded to decrease with increasing temperatures, and can persist up to 200 K for 1T'-WSe$_2$/BLG, consistent with our Monte Carlo simulations. The robustness of the CG and the positive fundamental gap endow the epitaxial 1T'-WSe$_2$ monolayers with huge potential for realizing the quantum spin Hall devices.

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外延 1T'-WSe$_2$ 单层的稳健库仑间隙和变温研究

虽然 1T'-WTe$_2$ 的量子化边缘电导已被证实可存活到 100 K，但对于工业应用来说，这个温度仍然相对较低。针对 1T'-TMDC 中温度效应研究有限的问题，我们的研究重点是在不同温度下生长在双层石墨烯（BLG）和硒钛氧化物（SrTiO$_3$(100) ）基底上的外延 1T'-WSe$_2$ 单层的电子和晶体特性。对于生长在双层石墨烯（BLG）上的 1T'-WSe$_2$，我们观察到其带状结构受到显著的热膨胀影响，热膨胀系数为 $\sim$60$\times$10$^{-6}$K$^{-1}$。相比之下，生长在 SrTiO$_3$(100) 上的 1T'-WSe$_2$ 在不同温度下的变化极小，这是由于衬底施加的应变增强所致。此外，在角度分辨光发射光谱（ARPES）和扫描隧道光谱（STS）中观察到，费米级存在明显的库仑间隙（CG）。研究发现，CG 会随着温度的升高而减小，1T'-WSe$_2$/BLG 的 CG 可持续到 200 K，这与我们的蒙特卡罗模拟结果一致。CG 的稳健性和正基本间隙赋予了外延 1T'-WSe$_2$ 单层实现量子自旋霍尔器件的巨大潜力。

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