2021
DOI: 10.1088/1361-6463/ac2200
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Hydrogen etch resistance of aluminium oxide passivated graphitic layers

Abstract: Graphene inherently possesses defect sites and grain boundaries that are vulnerable to chemical etching by hydrogen radicals. In this study, an etch-mitigation method is presented to selectively passivate these sites using atomic layer deposition (ALD) of a H etch-resistant material. First, as a reference experiment, pristine exfoliated graphitic layers are exposed to H radicals to determine the lateral etch rate from defect sites. Next, these samples are compared to graphitic layers in which the defects are s… Show more

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Cited by 2 publications
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“…By contrast, in our plasma, the increase in I H did not rely solely on the suppression of Si etching by covering the surface with Si oxide. To suppress the effect of the solid surface as far as possible, H 2 plasma was generated on a 1 mm-thick sintered alumina substrate, which hardly interacted with H 2 plasma or absorbed H atoms [29,30]. Using this experimental arrangement, the dependence of I H on the O 2 and N 2 additives was investigated.…”
Section: Optical Emission Of the Plasmamentioning
confidence: 99%
“…By contrast, in our plasma, the increase in I H did not rely solely on the suppression of Si etching by covering the surface with Si oxide. To suppress the effect of the solid surface as far as possible, H 2 plasma was generated on a 1 mm-thick sintered alumina substrate, which hardly interacted with H 2 plasma or absorbed H atoms [29,30]. Using this experimental arrangement, the dependence of I H on the O 2 and N 2 additives was investigated.…”
Section: Optical Emission Of the Plasmamentioning
confidence: 99%