Development of an NO2 Gas Sensor Based on Laser-Induced Graphene Operating at Room Temperature

Abstract: A novel, in situ, low-cost and facile method has been developed to fabricate flexible NO2 sensors capable of operating at ambient temperature, addressing the urgent need for monitoring this toxic gas. This technique involves the synthesis of highly porous structures, as well as the specific development of laser-induced graphene (LIG) and its heterostructures with SnO2, all through laser scribing. The morphology, phases, and compositions of the sensors were analyzed using scanning electron microscopy, X-ray dif… Show more

Recent advances in flexible/stretchable sensors using laser-induced three-dimensional porous graphene: From precursor to manufacturing

Recent advances in flexible/stretchable sensors using laser-induced three-dimensional porous graphene: From precursor to manufacturing

Laser-Induced Graphene-Based Flexible Strain Sensor for Human Finger Motion Detection

Room-Temperature Ammonia Sensing Using Polyaniline-Coated Laser-Induced Graphene