Two-dimensional layered materials have attracted tremendous attention as photodetectors due to their fascinating features, including comprehensive coverage of band gaps, high potential in new-generation electronic devices, mechanical flexibility, and sensitive light-mass interaction. Currently, graphene and transition-metal dichalcogenides (TMDCs) are the most attractive active materials for constructing photodetectors. A growing number of emerging TMDCs applied in photodetectors bring up opportunities in the direct band gap independence with thickness. This study demonstrated for the first time a photodetector based on a few-layer Re Mo S, which was grown by chemical vapor deposition (CVD) under atmospheric pressure. The detailed material characterizations were performed using Raman spectroscopy, photoluminescence, and X-ray photoelectron spectroscopy (XPS) on an as-grown few-layer Re Mo S. The results show that both MoS and ReS peaks appear in the Re Mo S Raman diagram. Re Mo S is observed to emit light at a wavelength of 716.8 nm. The electronic band structure of the few layers of Re Mo S calculated using the first-principles theory suggests that the band gap of Re Mo S is larger than that of ReS and smaller than that of MoS, which is consistent with the photoluminescence results. The thermal stability of the few layers of Re Mo S was evaluated using Raman temperature measurements. It is found that the thermal stability of Re Mo S is close to those of pure ReS and MoS. The fabricated Re Mo S photodetector shows a high response rate of 7.46 A W under 365 nm illumination, offering a competitive performance to the devices based on TMDCs and graphenes. This study unambiguously distinguishes Re Mo S as a future candidate in electronics and optoelectronics.
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| http://dx.doi.org/10.1021/acsomega.2c06480 | DOI Listing |
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