By A Mystery Man Writer
A Mini-Review On MXene Based Textiles For Electromagnetic Interference Shielding Application - Article (Preprint v1) by Anandu M Nair et al.
Developing a highly-conductive and strength cotton yarn through
Caffeic acid induced in-situ growth of AgNWs on cotton fabric for
MXene sensors based on optical and electrical sensing signals
Printable, Highly Sensitive Flexible Temperature Sensors for Human Body Temperature Monitoring: A Review. - Abstract - Europe PMC
基于微结构的柔性压力传感器设计、制备及性能
A polyester/spandex blend fabrics-based e-textile for strain sensor, joule heater and energy storage applications - ScienceDirect
Highly sensitive piezoresistive and thermally responsive fibrous networks from the in situ growth of PEDOT on MWCNT-decorated electrospun PU fibers for pressure and temperature sensing
Developing a highly-conductive and strength cotton yarn through
Research status of polysiloxane-based piezoresistive flexible human electronic sensors - RSC Advances (RSC Publishing) DOI:10.1039/D3RA03258B
A spirally layered carbon nanotube-graphene/polyurethane composite yarn for highly sensitive and stretchable strain sensor - ScienceDirect
ZrCuSiAs型锰基化合物ThMnSbN中的化学压力效应
Research status of polysiloxane-based piezoresistive flexible human electronic sensors - RSC Advances (RSC Publishing) DOI:10.1039/D3RA03258B
Research status of polysiloxane-based piezoresistive flexible human electronic sensors - RSC Advances (RSC Publishing) DOI:10.1039/D3RA03258B