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Article Abstract
Recently, as a member of transition metal dichalcogenides (TMDs), MoTe and its heterojunctions have gradually become a research hotspot in gas sensing due to their unique properties. In this study, MoTe/TiO heterojunctions were prepared using a simple hydrothermal method, and TiO nanoparticles were uniformly anchored on the surface of flake MoTe. Compared with the single-phase MoTe, the MoTe/TiO heterojunction based sensor demonstrates excellent ammonia detection capabilities at room temperature (22 ± 1℃). The sensor's response values to 1 ppm and 30 ppm ammonia are 28 % and 168 %, respectively, which are six times and three times greater than those of the single-component MoTe material. The recovery time for the sensor detecting 30 ppm ammonia has been reduced from 430 s to 239 s. Furthermore, the sensor exhibits excellent selectivity, repeatability, time stability, and a lower detection limit (500 ppb). Analysis indicates that the enhancement in sensing performance is attributed to the formation of numerous nanoscale p-n heterojunctions between MoTe and TiO nanoparticles. Moreover, density functional theory (DFT) calculations have confirmed that the presence of heterojunctions enhances the electron transfer efficiency between ammonia and the sensing materials.
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| http://dx.doi.org/10.1016/j.jhazmat.2025.138522 | DOI Listing |
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