2022
DOI: 10.1021/acssensors.2c01046
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A Family of 2D-MXenes: Synthesis, Properties, and Gas Sensing Applications

Abstract: Gas sensors, capable of detecting and monitoring trace amounts of gas molecules or volatile organic compounds (VOCs), are in great demand for numerous applications including diagnosing diseases through breath analysis, environmental and personal safety, food and agriculture, and other fields. The continuous emergence of new materials is one of the driving forces for the development of gas sensors. Recently, 2D materials have been gaining huge attention for gas sensing applications, owing to their superior elec… Show more

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Cited by 58 publications
(32 citation statements)
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“…After etching with 40% HF, an accordion-like structure was obtained, possibly because of the high reactivity between the Al atomic layer of Ti 3 AlC 2 and F ions as well as the large amount of escaped H 2 due to the exothermic nature of the HF reaction with aluminum (Figure 3b) [56]. After TBAOH intercalation, ultrathin flakes were observed (Figure 3c) because of the incorporation of the TBAOH intercalator into the interlayer of pristine MXene, which is consistent with a previous report [57]. After functionalization with APTES, an irregular distribution of nanosized flakes (MXene-NH 2 ) was observed, which is probably due to the electrostatic interaction between the amine groups of APTES (Figure 3d).…”
Section: Morphological Analysis Of Mxene-based Nanomaterialssupporting
confidence: 90%
“…After etching with 40% HF, an accordion-like structure was obtained, possibly because of the high reactivity between the Al atomic layer of Ti 3 AlC 2 and F ions as well as the large amount of escaped H 2 due to the exothermic nature of the HF reaction with aluminum (Figure 3b) [56]. After TBAOH intercalation, ultrathin flakes were observed (Figure 3c) because of the incorporation of the TBAOH intercalator into the interlayer of pristine MXene, which is consistent with a previous report [57]. After functionalization with APTES, an irregular distribution of nanosized flakes (MXene-NH 2 ) was observed, which is probably due to the electrostatic interaction between the amine groups of APTES (Figure 3d).…”
Section: Morphological Analysis Of Mxene-based Nanomaterialssupporting
confidence: 90%
“…Currently, there are different types of sensors, such as gas sensors, biosensors and sound sensors [245]. Owing to the medium specific surface area, layered structure, rich active sites and superior electronic conductivity, MXenes have been regarded as promising sensitive materials in recent years [44]. For example, Wu et al synthesized Ti 3 C 2 Cl 2 MXene via ZnCl 2 etching in 2021 and investigated its gas-sensing performance [246].…”
Section: Sensorsmentioning
confidence: 99%
“…Furthermore, the surface groups of MXenes mainly comprise of -O, -OH, -F, -Cl, -Br, -I, -S, -Se, -Te, -NH, etc., and can also be adjusted by etchants, termination substitution reaction and storage environment [40][41][42][43]. To date, nearly 50 various MXenes have been experimentally fabricated [44]. Considering the great tunability of M-site atoms, X-site atoms and surface terminations as well as the structural diversity of MXenes (Fig.…”
Section: Introductionmentioning
confidence: 99%
“…Since the pioneering work on mechanically exfoliated graphene, which shows an RT NO 2 -sensitive effect, 2D layered semiconductors such as transition metal dichalcogenides (TMDs), , black phosphorus (BP), , 2D carbides and nitrides (MXenes), , 2D metal–organic frameworks (MOFs), , and covalent organic frameworks (COFs) have become a research hotspot in the gas sensor field.…”
Section: Gas-sensitive Effect Of Low-dimensional Semiconductor Nanoma...mentioning
confidence: 99%