High-Resolution Femtosecond Laser-Induced Carbon and Ag Hybrid Structure for Bend Sensing

Abstract: Miniaturized resistance-based portable bending sensors have been widely used for human health monitoring in recent years. Their sensitivities are defined by their resistance variations (ΔR/R), which strongly rely on the conductivity and minimum line width of the sensing unit. Laser-induced carbonization is a fast and simple method to fabricate porous-sensing structures. However, the fabrication resolution of conductive and deformation-sensitive structures is limited by the thermal effect of commonly used laser… Show more

“…Furthermore, the surface porous carbon-based structures induced by femtosecond laser also demonstrate piezoresistive properties and negative temperature characteristics similar to semiconductors, making them suitable for use as pressure and temperature sensors [92]. Additionally, the use of femtosecond laser for electrode induction results in smaller feature sizes, which is more conducive to device integration [93].…”

Femtosecond Laser Direct Writing of Flexible Electronic Devices: A Mini Review

“…Furthermore, the surface porous carbon-based structures induced by femtosecond laser also demonstrate piezoresistive properties and negative temperature characteristics similar to semiconductors, making them suitable for use as pressure and temperature sensors [92]. Additionally, the use of femtosecond laser for electrode induction results in smaller feature sizes, which is more conducive to device integration [93].…”

Femtosecond Laser Direct Writing of Flexible Electronic Devices: A Mini Review

Multifunctional carboxymethyl cellulose nanofiber/liquid metal aerogels for sound absorption and heat insulation

Femtosecond laser-induced graphene for temperature and ultrasensitive flexible strain sensing