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Quasi-equilibrium growth of inch-scale single-crystal monolayer α-In2Se3 on fluor-phlogopite

Kunpeng Si, Yifan Zhao, Peng Zhang, Xingguo Wang, Qianqian He, Juntian Wei, Bixuan Li, Yongxi Wang, Aiping Cao, Zhigao Hu, Peizhe Tang, Feng Ding, Yongji Gong

2024Nature Communications36 citationsDOIOpen Access PDF

Abstract

Epitaxial growth of two-dimensional (2D) materials with uniform orientation has been previously realized by introducing a small binding energy difference between the two locally most stable orientations. However, this small energy difference can be easily disturbed by uncontrollable dynamics during the growth process, limiting its practical applications. Herein, we propose a quasi-equilibrium growth (QEG) strategy to synthesize inch-scale monolayer α-In2Se3 single crystals, a semiconductor with ferroelectric properties, on fluor-phlogopite substrates. The QEG facilitates the discrimination of small differences in binding energy between the two locally most stable orientations, realizing robust single-orientation epitaxy within a broad growth window. Thus, single-crystal α-In2Se3 film can be epitaxially grown on fluor-phlogopite, the cleavage surface atomic layer of which has the same 3-fold rotational symmetry with α-In2Se3. The resulting crystalline quality enables high electron mobility up to 117.2 cm2 V−1 s−1 in α-In2Se3 ferroelectric field-effect transistors, exhibiting reliable nonvolatile memory performance with long retention time and robust cycling endurance. In brief, the developed QEG method provides a route for preparing larger-area single-crystal 2D materials and a promising opportunity for applications of 2D ferroelectric devices and nanoelectronics. The controlled growth of large-area single-crystalline 2D semiconductors remains a significant challenge for their electronic applications. Here, the authors report a quasi-equilibrium growth method to synthesize inch-scale monolayer α-In2Se3 with high mobility and ferroelectric field-effect transistor performance.

Topics & Concepts

PhlogopiteMonolayerScale (ratio)Crystal (programming language)Materials scienceNanotechnologyBiologyComputer sciencePhysicsPaleontologyProgramming languageMantle (geology)Quantum mechanicsChalcogenide Semiconductor Thin Films2D Materials and ApplicationsQuantum Dots Synthesis And Properties