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Co@N-CNT/MXenes <i>in situ</i> grown on carbon nanotube film for multifunctional sensors and flexible supercapacitors

Qiufan Wang, Jiaheng Liu, Guofu Tian, Daohong Zhang

2021Nanoscale43 citationsDOI

Abstract

The rapid development of human-machine interfaces and artificial intelligence is dependent on flexible and wearable soft devices such as sensors and energy storage systems. One of the key factors for these devices is the design of a flexible electrode with high sensitivity, fast response time, and a wide working range. Here, we report the fabrication of strain sensors and all-solid-state flexible supercapacitors using Co@N-CNT/MXenes as an electrode material. The manufactured sensor shows a high tensile range (strain up to 200%) and high stability. The resistance change caused by the fingers touching the sensor can be used to transmit the Morse code information. Flexible supercapacitors serving as power supply demonstrate excellent cycling stability (85 000 cycles) and coulombic efficiency (99.7%) for their high surface area and pseudocapacitance. A self-powered integrated system composed of the strain sensor and flexible supercapacitor is fabricated and operates stably in a wide strain sensing test range. Moreover, the flexible solar-charging self-powered integrated system could be attached to the human body for stable human motion detection. This study clearly shows that appropriate selection of a single functional material to enable it to be used in multi-functional sensors and supercapacitors can simplify the process and reduce the cost of manufacturing wearable devices.

Topics & Concepts

MXenesSupercapacitorMaterials scienceCarbon nanotubeNanotechnologyWearable computerElectrodeComputer scienceCapacitanceEmbedded systemChemistryPhysical chemistryAdvanced Sensor and Energy Harvesting MaterialsMXene and MAX Phase MaterialsSupercapacitor Materials and Fabrication
Co@N-CNT/MXenes <i>in situ</i> grown on carbon nanotube film for multifunctional sensors and flexible supercapacitors | Litcius