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Toward Smart Sensing by MXene.

Yufen Li1, Shirong Huang2,3, Songang Peng4,5

  • 1Collaborative Innovation Center of Technology and Equipment for Biological Diagnosis and Therapy in Universities of Shandong, Institute for Advanced Interdisciplinary Research (iAIR), University of Jinan, Jinan, 250022, China.

Small (Weinheim an Der Bergstrasse, Germany)
|December 14, 2022
PubMed
Summary
This summary is machine-generated.

MXene-based sensors offer extraordinary performance for the Internet of Things. This review covers their properties, sensing mechanisms, and future potential in multimodal data fusion for advanced applications.

Keywords:
MXenechemoresistive sensorselectrochemical biosensingphotodetectorssmart sensingsurface plasmonic resonancetactile sensors

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Sensor Technology

Background:

  • The Internet of Things (IoT) relies heavily on sensors for environmental data acquisition.
  • MXenes have emerged as high-performance materials for sensor development due to their unique properties.

Purpose of the Study:

  • To review the electrical, electronic, and optical properties of MXenes.
  • To discuss MXene-based sensors based on various sensing mechanisms.
  • To explore future prospects for MXene research in sensor technology.

Main Methods:

  • Introduction to the fundamental properties of MXenes.
  • Categorization of MXene sensors by sensing mechanisms: electronic, electrochemical, and optical.
  • Examples of specific sensor types including biosensors, wearable pressure sensors, amperometry, electrochemiluminescence, surface plasmonic resonance, and fluorescence resonance energy transfer.

Main Results:

  • MXenes exhibit remarkable electrical, electronic, and optical properties suitable for diverse sensing applications.
  • Various sensing mechanisms (chemiresistors, field-effect transistors, piezoresistive, amperometry, ECL, SPR, FRET) are effectively implemented using MXenes.
  • Multimodal data fusion with MXene sensors offers pathways to complex, human-like sensory capabilities.

Conclusions:

  • MXene-based sensors are promising for advanced IoT applications.
  • Further research in material discovery, structure design, and proof-of-concept devices will drive MXene sensor innovation.
  • The integration of MXene sensors holds potential for creating sophisticated, multimodal sensing systems.