Add to ORKGInternational audienceWe investigate ablation of CVD monolayer graphene by femtosecond pulses in the single shot regime.We show that the ablation probability of flat graphene drastically reduces for small illumination diameters even if the ablation threshold is exceeded. However, the presence of graphene wrinkles enhances the ablation probability. This is interpreted in terms of electron and energy diffusion within the graphene layer. This differentiated behavior is a drawback for single shot laser nanopatterning. The morphology of the holes with minimal diameter depends on the fluence distribution at ablation threshold. Strong fluence gradients due to strong focussing produce an explosive folding of graphene during ablation
© 2016 Laser Institute of America. We demonstrate a uniform single layer micropattern of graphene on...
Graphene nanogap systems are promising research tools for molecular electronics, memories, and nanod...
International audienceGraphene nanogap systems are promising research tools for molecular electronic...
International audienceWe investigate ablation of CVD monolayer graphene by femtosecond pulses in the...
International audienceWe investigate ablation of CVD monolayer graphene by femtosecond pulses in the...
National audienceGraphene is an important material for next-generation technologies, but the develop...
<p>Ultrafast laser-induced damage and ablation of graphene is the one of the most critical parts of ...
International audienceWe investigate a method to measure ultrafast laser ablation threshold with res...
Based on the second law of thermodynamics, energy has dispersive nature. When dispersive energy is c...
Since its isolation in 2004, graphene has emerged has a potential material for next generation techn...
We demonstrate a uniform single layer micropattern of graphene on 300 nm thick SiO2 on a Si substrat...
This paper focuses on the development of patterned graphene/substrate by means of green nanosecond p...
© 2016 Laser Institute of America. We demonstrate a uniform single layer micropattern of graphene on...
Graphene nanogap systems are promising research tools for molecular electronics, memories, and nanod...
International audienceGraphene nanogap systems are promising research tools for molecular electronic...
International audienceWe investigate ablation of CVD monolayer graphene by femtosecond pulses in the...
International audienceWe investigate ablation of CVD monolayer graphene by femtosecond pulses in the...
National audienceGraphene is an important material for next-generation technologies, but the develop...
<p>Ultrafast laser-induced damage and ablation of graphene is the one of the most critical parts of ...
International audienceWe investigate a method to measure ultrafast laser ablation threshold with res...
Based on the second law of thermodynamics, energy has dispersive nature. When dispersive energy is c...
Since its isolation in 2004, graphene has emerged has a potential material for next generation techn...
We demonstrate a uniform single layer micropattern of graphene on 300 nm thick SiO2 on a Si substrat...
This paper focuses on the development of patterned graphene/substrate by means of green nanosecond p...
© 2016 Laser Institute of America. We demonstrate a uniform single layer micropattern of graphene on...
Graphene nanogap systems are promising research tools for molecular electronics, memories, and nanod...
International audienceGraphene nanogap systems are promising research tools for molecular electronic...