Toward Smart Sensing by MXene

Yufen Li; Shirong Huang; Songang Peng; Hao Jia; Jinbo Pang; Bergoi Ibarlucea; Chongyang Hou; Yu Cao; Weijia Zhou; Hong Liu; Gianaurelio Cuniberti

doi:10.1002/smll.202206126

Toward Smart Sensing by MXene

Yufen Li
, Shirong Huang
, Songang Peng
, Hao Jia
, Jinbo Pang^*
, Bergoi Ibarlucea^*
, Chongyang Hou
, Yu Cao
, Weijia Zhou^*
, Hong Liu^*
, Gianaurelio Cuniberti

^*Autor correspondiente de este trabajo

University of Jinan
Technische Universität Dresden
CAS - Institute of Microelectronics
CAS - Shanghai Institute of Microsystem and Information Technology
Northeast Electric Power University
Shandong University

Producción científica: Contribución a una revista › Artículo de revisión › revisión exhaustiva

126 Citas (Scopus)

Resumen

The Internet of Things era has promoted enormous research on sensors, communications, data fusion, and actuators. Among them, sensors are a prerequisite for acquiring the environmental information for delivering to an artificial data center to make decisions. The MXene-based sensors have aroused tremendous interest because of their extraordinary performances. In this review, the electrical, electronic, and optical properties of MXenes are first introduced. Next, the MXene-based sensors are discussed according to the sensing mechanisms such as electronic, electrochemical, and optical methods. Initially, biosensors are introduced based on chemiresistors and field-effect transistors. Besides, the wearable pressure sensor is demonstrated with piezoresistive devices. Third, the electrochemical methods include amperometry and electrochemiluminescence as examples. In addition, the optical approaches refer to surface plasmonic resonance and fluorescence resonance energy transfer. Moreover, the prospects are delivered of multimodal data fusion toward complicated human-like senses. Eventually, future opportunities for MXene research are conveyed in the new material discovery, structure design, and proof-of-concept devices.

Idioma original	Inglés
Número de artículo	2206126
Publicación	Small
Volumen	19
N.º	14
DOI	https://doi.org/10.1002/smll.202206126
Estado	Publicada - 5 abr 2023
Publicado de forma externa	Sí

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abstract = "The Internet of Things era has promoted enormous research on sensors, communications, data fusion, and actuators. Among them, sensors are a prerequisite for acquiring the environmental information for delivering to an artificial data center to make decisions. The MXene-based sensors have aroused tremendous interest because of their extraordinary performances. In this review, the electrical, electronic, and optical properties of MXenes are first introduced. Next, the MXene-based sensors are discussed according to the sensing mechanisms such as electronic, electrochemical, and optical methods. Initially, biosensors are introduced based on chemiresistors and field-effect transistors. Besides, the wearable pressure sensor is demonstrated with piezoresistive devices. Third, the electrochemical methods include amperometry and electrochemiluminescence as examples. In addition, the optical approaches refer to surface plasmonic resonance and fluorescence resonance energy transfer. Moreover, the prospects are delivered of multimodal data fusion toward complicated human-like senses. Eventually, future opportunities for MXene research are conveyed in the new material discovery, structure design, and proof-of-concept devices.",

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AU - Li, Yufen

AU - Huang, Shirong

AU - Peng, Songang

AU - Jia, Hao

AU - Pang, Jinbo

AU - Ibarlucea, Bergoi

AU - Hou, Chongyang

AU - Cao, Yu

AU - Zhou, Weijia

AU - Liu, Hong

AU - Cuniberti, Gianaurelio

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N2 - The Internet of Things era has promoted enormous research on sensors, communications, data fusion, and actuators. Among them, sensors are a prerequisite for acquiring the environmental information for delivering to an artificial data center to make decisions. The MXene-based sensors have aroused tremendous interest because of their extraordinary performances. In this review, the electrical, electronic, and optical properties of MXenes are first introduced. Next, the MXene-based sensors are discussed according to the sensing mechanisms such as electronic, electrochemical, and optical methods. Initially, biosensors are introduced based on chemiresistors and field-effect transistors. Besides, the wearable pressure sensor is demonstrated with piezoresistive devices. Third, the electrochemical methods include amperometry and electrochemiluminescence as examples. In addition, the optical approaches refer to surface plasmonic resonance and fluorescence resonance energy transfer. Moreover, the prospects are delivered of multimodal data fusion toward complicated human-like senses. Eventually, future opportunities for MXene research are conveyed in the new material discovery, structure design, and proof-of-concept devices.

AB - The Internet of Things era has promoted enormous research on sensors, communications, data fusion, and actuators. Among them, sensors are a prerequisite for acquiring the environmental information for delivering to an artificial data center to make decisions. The MXene-based sensors have aroused tremendous interest because of their extraordinary performances. In this review, the electrical, electronic, and optical properties of MXenes are first introduced. Next, the MXene-based sensors are discussed according to the sensing mechanisms such as electronic, electrochemical, and optical methods. Initially, biosensors are introduced based on chemiresistors and field-effect transistors. Besides, the wearable pressure sensor is demonstrated with piezoresistive devices. Third, the electrochemical methods include amperometry and electrochemiluminescence as examples. In addition, the optical approaches refer to surface plasmonic resonance and fluorescence resonance energy transfer. Moreover, the prospects are delivered of multimodal data fusion toward complicated human-like senses. Eventually, future opportunities for MXene research are conveyed in the new material discovery, structure design, and proof-of-concept devices.

KW - MXene

KW - chemoresistive sensors

KW - electrochemical biosensing

KW - photodetectors

KW - smart sensing

KW - surface plasmonic resonance

KW - tactile sensors

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JO - Small

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Toward Smart Sensing by MXene

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