In this work we investigate the damage induced on a graphene–nickel interface after the exposure to Nd:YAG infrared laser radiation. The damage threshold has been experimentally determined. We observe that once the fluence exceeds the threshold value, both the morphology and the physical–chemical properties of the samples change. This has been verified by scanning probe microscopes measurements and near edge x-ray absorption fine structure spectroscopy analysis.
Nd:YAG Laser Damage of Graphene–Nickel Interfaces Nd:YAG Laser Damage of Graphene–Nickel Interfaces / Zuppella P.; Gerlin F.; Corso A. J.; Nardello M.; Tessarolo E.; BACCO D; Scarpa D.; Andrighetto A.; Pelizzo M. G.. - In: LASERS IN MANUFACTURING AND MATERIALS PROCESSING. - ISSN 2196-7229. - ELETTRONICO. - 3:(2016), pp. 131-139. [10.1007/s40516-016-0026-7]
Nd:YAG Laser Damage of Graphene–Nickel Interfaces Nd:YAG Laser Damage of Graphene–Nickel Interfaces
BACCO D;
2016
Abstract
In this work we investigate the damage induced on a graphene–nickel interface after the exposure to Nd:YAG infrared laser radiation. The damage threshold has been experimentally determined. We observe that once the fluence exceeds the threshold value, both the morphology and the physical–chemical properties of the samples change. This has been verified by scanning probe microscopes measurements and near edge x-ray absorption fine structure spectroscopy analysis.
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