Add to ORKGLaser-Induced Graphene (LIG) is a graphitic material with properties comparable to more pure forms of graphene, but with a simpler and cheaper synthesis process. By irradiating a carbon-rich precursor with a laser, LIG samples can be formed in a matter of seconds instead of hours. In this work, we aim to show that the synthesis of LIG using consumer-grade equipment is an effective method. The graphene content of the LIG was confirmed by Raman analysis, and Hall measurements showed a low sheet resistance. Our findings indicate that LIG could be better suited to certain applications, such as biomedical research, than other methods of graphene synthesis
Laser-induced graphene (LIG) production and application is currently receiving tremendous attention ...
A simple procedure of producing three-dimensional blisters of graphene through irradiation of the vi...
Laser ablation can easily create graphene traces through the photothermal conversion of polymeric fi...
Laser-induced graphene (LIG), which is directly fabricated by laser carbonization of polymers, has g...
Graphene has been regarded as a potential application material in the field of new energy conversion...
This research introduces a readily available and non-chemical combinatorial production approach, kno...
Laser-induced graphene (LIG) possesses desirable properties for numerous applications. However, LIG ...
In this work, we put forward a rigorous study on ultraviolet (355-nm) laser irradiation of polyimide...
We demonstrate a laser-based technique to directly synthesize few layer graphene on quartz substrate...
Notwithstanding its relatively recent discovery, graphene has gone through many evolution steps and ...
Laser reduction of graphene oxide has attracted significant interest in recent years, because it off...
Laser-based green synthetic approaches for 2D atomic sheets of graphene, graphene nanoribbons and in...
A scalable laser scribing approach to produce zinc oxide (ZnO) decorated laser-induced graphene (LIG...
Printing of binder-free graphene electrodes directly on substrates has the potential to enable a lar...
Póster.--European Materials Research Society Spring Meeting, Laser material processing: from fundame...
Laser-induced graphene (LIG) production and application is currently receiving tremendous attention ...
A simple procedure of producing three-dimensional blisters of graphene through irradiation of the vi...
Laser ablation can easily create graphene traces through the photothermal conversion of polymeric fi...
Laser-induced graphene (LIG), which is directly fabricated by laser carbonization of polymers, has g...
Graphene has been regarded as a potential application material in the field of new energy conversion...
This research introduces a readily available and non-chemical combinatorial production approach, kno...
Laser-induced graphene (LIG) possesses desirable properties for numerous applications. However, LIG ...
In this work, we put forward a rigorous study on ultraviolet (355-nm) laser irradiation of polyimide...
We demonstrate a laser-based technique to directly synthesize few layer graphene on quartz substrate...
Notwithstanding its relatively recent discovery, graphene has gone through many evolution steps and ...
Laser reduction of graphene oxide has attracted significant interest in recent years, because it off...
Laser-based green synthetic approaches for 2D atomic sheets of graphene, graphene nanoribbons and in...
A scalable laser scribing approach to produce zinc oxide (ZnO) decorated laser-induced graphene (LIG...
Printing of binder-free graphene electrodes directly on substrates has the potential to enable a lar...
Póster.--European Materials Research Society Spring Meeting, Laser material processing: from fundame...
Laser-induced graphene (LIG) production and application is currently receiving tremendous attention ...
A simple procedure of producing three-dimensional blisters of graphene through irradiation of the vi...
Laser ablation can easily create graphene traces through the photothermal conversion of polymeric fi...