JOURNAL ARTICLE
Conductive MXene nanocomposite organohydrogels for ultra-stretchable, low-temperature resistant and stable strain sensors
Yafei LiuYujie GuiYing LvHuiya FengXia ZhaoJianhui QiuXuemei MaYuchen Yang
Year: 2024 Journal: Journal of Materials Chemistry C Vol: 12 (17)Pages: 6226-6238 Publisher: Royal Society of Chemistry
Abstract
Hydrogels have unique flexibility and a highly efficient, low-cost manufacturing process, thus they are expected to be used in electronic skin, wearable sensors, soft robotics, and human–computer interaction.
Keywords:
Materials science Soft robotics Flexibility (engineering) Nanocomposite Wearable computer Electrical conductor Self-healing hydrogels Nanotechnology Wearable technology Electronic skin Composite material Computer science Embedded system Artificial intelligence Polymer chemistry Robot
Metrics
6
Cited By
2.21
FWCI (Field Weighted Citation Impact)
46
Refs
0.77
Citation Normalized Percentile
Is in top 1%
Is in top 10%
Citation History
Topics
Advanced Sensor and Energy Harvesting Materials
Physical Sciences → Engineering → Biomedical Engineering
MXene and MAX Phase Materials
Physical Sciences → Materials Science → Materials Chemistry
Advanced Materials and Mechanics
Physical Sciences → Engineering → Mechanical Engineering
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