Litcius/Paper detail

Chemical Vapor Deposition-Grown Nonlayered α-MnTe Nanosheet for Photodetectors with Ultrahigh Responsivity and External Quantum Efficiency

Luji Li, Hongda Li, Jie Li, Hao Wu, Li Yang, Wenfeng Zhang, Haixin Chang

2020Chemistry of Materials36 citationsDOI

Abstract

Development of new two-dimensional (2D) materials with high performance photoelectronic properties is critical for the future multifunctional and miniaturized optoelectronic devices. α-MnTe is an room-temperature antiferromagnetic, direct band gap p-type semiconductor with unique energy band structure and may have high photoelectric conversion efficiency and excellent photoelectric properties. However, controlled synthesis of the 2D α-MnTe single crystal has rarely been achieved so far. In this paper, 2D α-MnTe nanosheets with a NiAs-type hexagonal structure, a stable 2D nonlayered p-type semiconductor, are prepared for the first time via van der Waals epitaxy chemical vapor deposition (CVD) on mica. The thickness of 2D α-MnTe can be well tuned by the reaction temperature and gas flow. The photoelectric performance of the photodetector based on the 2D α-MnTe nanosheet shows that the 2D α-MnTe nanosheet based photodetector has an ultrahigh photoresponsivity (2599 A/W), external quantum efficiency (EQE, 8.065 × 105%), and excellent photodetectivity (3.32 × 1012 jones) at an illumination of 400 nm @ 0.062 mW/cm2 at 3 V, which is one of best performances of 2D material based photodetectors. Our work provides a new avenue to high performance 2D optoelectronic devices.

Topics & Concepts

PhotodetectorResponsivityNanosheetMaterials scienceQuantum efficiencyOptoelectronicsChemical vapor depositionPhotoelectric effectSemiconductorEpitaxyBand gapNanotechnologyLayer (electronics)2D Materials and ApplicationsMXene and MAX Phase MaterialsPerovskite Materials and Applications