Room Temperature Chemiresistive Gas Sensors Based on 2D MXenes

Ali Mirzaei; Myoung Hoon Lee; Haniyeh Safaeian; Tae Un Kim; Jin Young Kim; Hyoun Woo Kim; Sang Sub Kim

doi:10.3390/s23218829

Room Temperature Chemiresistive Gas Sensors Based on 2D MXenes

Ali Mirzaei, Myoung Hoon Lee, Haniyeh Safaeian, Tae Un Kim, Jin Young Kim, Hyoun Woo Kim, Sang Sub Kim

Research output: Contribution to journal › Review article › peer-review

23 Scopus citations

Abstract

Owing to their large surface area, two-dimensional (2D) semiconducting nanomaterials have been extensively studied for gas-sensing applications in recent years. In particular, the possibility of operating at room temperature (RT) is desirable for 2D gas sensors because it significantly reduces the power consumption of the sensing device. Furthermore, RT gas sensors are among the first choices for the development of flexible and wearable devices. In this review, we focus on the 2D MXenes used for the realization of RT gas sensors. Hence, pristine, doped, decorated, and composites of MXenes with other semiconductors for gas sensing are discussed. Two-dimensional MXene nanomaterials are discussed, with greater emphasis on the sensing mechanism. MXenes with the ability to work at RT have great potential for practical applications such as flexible and/or wearable gas sensors.

Original language	English
Article number	8829
Journal	Sensors
Volume	23
Issue number	21
DOIs	https://doi.org/10.3390/s23218829
State	Published - Nov 2023

Bibliographical note

Publisher Copyright:
© 2023 by the authors.

Keywords

2D nanomaterials
MXene
RT
gas sensor
sensing mechanism

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10.3390/s23218829

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title = "Room Temperature Chemiresistive Gas Sensors Based on 2D MXenes",

abstract = "Owing to their large surface area, two-dimensional (2D) semiconducting nanomaterials have been extensively studied for gas-sensing applications in recent years. In particular, the possibility of operating at room temperature (RT) is desirable for 2D gas sensors because it significantly reduces the power consumption of the sensing device. Furthermore, RT gas sensors are among the first choices for the development of flexible and wearable devices. In this review, we focus on the 2D MXenes used for the realization of RT gas sensors. Hence, pristine, doped, decorated, and composites of MXenes with other semiconductors for gas sensing are discussed. Two-dimensional MXene nanomaterials are discussed, with greater emphasis on the sensing mechanism. MXenes with the ability to work at RT have great potential for practical applications such as flexible and/or wearable gas sensors.",

keywords = "2D nanomaterials, MXene, RT, gas sensor, sensing mechanism",

author = "Ali Mirzaei and Lee, \{Myoung Hoon\} and Haniyeh Safaeian and Kim, \{Tae Un\} and Kim, \{Jin Young\} and Kim, \{Hyoun Woo\} and Kim, \{Sang Sub\}",

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T1 - Room Temperature Chemiresistive Gas Sensors Based on 2D MXenes

AU - Mirzaei, Ali

AU - Lee, Myoung Hoon

AU - Safaeian, Haniyeh

AU - Kim, Tae Un

AU - Kim, Jin Young

AU - Kim, Hyoun Woo

AU - Kim, Sang Sub

PY - 2023/11

Y1 - 2023/11

N2 - Owing to their large surface area, two-dimensional (2D) semiconducting nanomaterials have been extensively studied for gas-sensing applications in recent years. In particular, the possibility of operating at room temperature (RT) is desirable for 2D gas sensors because it significantly reduces the power consumption of the sensing device. Furthermore, RT gas sensors are among the first choices for the development of flexible and wearable devices. In this review, we focus on the 2D MXenes used for the realization of RT gas sensors. Hence, pristine, doped, decorated, and composites of MXenes with other semiconductors for gas sensing are discussed. Two-dimensional MXene nanomaterials are discussed, with greater emphasis on the sensing mechanism. MXenes with the ability to work at RT have great potential for practical applications such as flexible and/or wearable gas sensors.

AB - Owing to their large surface area, two-dimensional (2D) semiconducting nanomaterials have been extensively studied for gas-sensing applications in recent years. In particular, the possibility of operating at room temperature (RT) is desirable for 2D gas sensors because it significantly reduces the power consumption of the sensing device. Furthermore, RT gas sensors are among the first choices for the development of flexible and wearable devices. In this review, we focus on the 2D MXenes used for the realization of RT gas sensors. Hence, pristine, doped, decorated, and composites of MXenes with other semiconductors for gas sensing are discussed. Two-dimensional MXene nanomaterials are discussed, with greater emphasis on the sensing mechanism. MXenes with the ability to work at RT have great potential for practical applications such as flexible and/or wearable gas sensors.

KW - 2D nanomaterials

KW - MXene

KW - RT

KW - gas sensor

KW - sensing mechanism

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U2 - 10.3390/s23218829

DO - 10.3390/s23218829

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JO - Sensors

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ER -

Room Temperature Chemiresistive Gas Sensors Based on 2D MXenes

Abstract

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