Laser induced grapheneLIGpHRiboflavinWoundThe laser-induced modification of polyimide substrates to yield conductive graphitised tracks sensitive to the solution pH is investigated. The influence of laser output and operating characteristics on the surface morphology and the consequential impact on ...
Since its introduction in 2014, laser-induced graphene (LIG) from commercial polymers has been gaining interests in both academic and industrial sectors. This can be clearly seen from its mass adoption in various fields ranging from energy storage and sensing platforms to biomedical applications. LIG...
Laser-induced porous graphene on Polyimide/PDMS composites and its kirigami-inspired strain sensorThe laser-induced porous graphene (LIG) prepared in a straightforward fabrication method is presented, and its applications in stretchable strain sensors to detect the applied strain are also explored. The ...
Laser-induced graphene (LIG) has shown to be a scalable manufacturing route to create graphene electrodes that overcome the expense associated with conventional graphene electrode fabrication. Herein, we expand upon initial LIG reports by functionalizing the LIG with metallic nanoparticles for ion sensing...
A new approach has recently emerged in graphene synthesis by direct laser writing (LIG), which is highly economical and scalable, unlike previous methods. Here, the sputtering method has been used to coat silver onto the laser-induced graphene-based sensor. The results demonstrate that the chosen...
Researchers from the Korea Advanced Institute of Science and Technology (KAIST), Korea Institute of Machinery & Materials and Seoul National University of Science and Technology (SEOULTECH) have shown that laser-induced graphene (LIG), patterned with fem
In this study, we utilized a straightforward and efficient femtosecond laser direct writing technique using phenolic resin (PR) as a carbon precursor to produce high-quality laser-induced graphene (LIG) characterized by high crystallinity and low defect density. The fabricated LIG underwent ...
Laser-induced graphene (LIG) emerges as a transformative technology for eco-friendly and biocompatible wireless devices, revolutionizing industries such as food, pharmaceuticals, and healthcare. LIG facilitates direct patterning of antennas and sensors on flexible polymeric substrates, streamlining manufacturing...
Graphene, due to its unique zero-bandgap, single-layer structure, and outstanding properties, has attracted more than a decade of research interests. In th
High-sensitivity 8-hydroxy-2′-deoxyguanosine micro-electrochemical sensor based on polyvinylpyrrolidone functionalized laser-induced graphene: Design, sca... Laser-induced grapheneMicro-electrochemical sensor8-Hydroxy-2′-deoxyguaninePolyvinylpyrrolidone functionalizationDNA oxidative damage biomarkersPortable micro...