Emerging MXene-Based Flexible Tactile Sensors for Health Monitoring and Haptic Perception

Lai，Qin Teng1; Zhao，Xin Hua2; Sun，Qi Jun1; Tang，Zhenhua1; Tang，Xin Gui1; Roy，Vellaisamy A.L.3

2023

10.1002/smll.202300283

Small   影响因子和分区

1613-6810

1613-6829

Due to their potential applications in physiological monitoring, diagnosis, human prosthetics, haptic perception, and human–machine interaction, flexible tactile sensors have attracted wide research interest in recent years. Thanks to the advances in material engineering, high performance flexible tactile sensors have been obtained. Among the representative pressure sensing materials, 2D layered nanomaterials have many properties that are superior to those of bulk nanomaterials and are more suitable for high performance flexible sensors. As a class of 2D inorganic compounds in materials science, MXene has excellent electrical, mechanical, and biological compatibility. MXene-based composites have proven to be promising candidates for flexible tactile sensors due to their excellent stretchability and metallic conductivity. Therefore, great efforts have been devoted to the development of MXene-based composites for flexible sensor applications. In this paper, the controllable preparation and characterization of MXene are introduced. Then, the recent progresses on fabrication strategies, operating mechanisms, and device performance of MXene composite-based flexible tactile sensors, including flexible piezoresistive sensors, capacitive sensors, piezoelectric sensors, triboelectric sensors are reviewed. After that, the applications of MXene material-based flexible electronics in human motion monitoring, healthcare, prosthetics, and artificial intelligence are discussed. Finally, the challenges and perspectives for MXene-based tactile sensors are summarized.

artificial intelligence flexible tactile sensors health monitoring human motion detection MXene-based composites

SCI ; EI

英语

ESI高被引

其他

Guangdong Basic and Applied Basic Research Foundation[2021A1515110719] ; Guangzhou Basic and Applied Basic Research Foundation[202201010614]

Chemistry ; Science & Technology - Other Topics ; Materials Science ; Physics

Chemistry, Multidisciplinary ; Chemistry, Physical ; Nanoscience & Nanotechnology ; Materials Science, Multidisciplinary ; Physics, Applied ; Physics, Condensed Matter

WOS:000993561100001

WILEY-V C H VERLAG GMBH

20231313796978

Flexible electronics ; Motion analysis ; Nanostructured materials ; Prosthetics ; Tactile sensors ; Wearable sensors

Prosthetics:462.4 ; Electronic Equipment, General Purpose and Industrial:715 ; Data Processing and Image Processing:723.2 ; Robotics:731.5 ; Robot Applications:731.6 ; Control Devices:732 ; Nanotechnology:761 ; Crystalline Solids:933.1

2-s2.0-85150605336

Scopus

1.School of Physics and Optoelectric Engineering,Guangdong University of Technology,Guangzhou,511400,China
2.Department of Chemistry,South University of Science and Technology of China,Shenzhen,518055,China
3.School of Science and Technology,Hong Kong Metropolitan University,999077,Hong Kong

Lai，Qin Teng,Zhao，Xin Hua,Sun，Qi Jun,et al. Emerging MXene-Based Flexible Tactile Sensors for Health Monitoring and Haptic Perception[J]. Small,2023,19(27).

Lai，Qin Teng,Zhao，Xin Hua,Sun，Qi Jun,Tang，Zhenhua,Tang，Xin Gui,&Roy，Vellaisamy A.L..(2023).Emerging MXene-Based Flexible Tactile Sensors for Health Monitoring and Haptic Perception.Small,19(27).

Lai，Qin Teng,et al."Emerging MXene-Based Flexible Tactile Sensors for Health Monitoring and Haptic Perception".Small 19.27(2023).