Strain Engineering in Highly Wrinkled CVD-Graphene/ Epoxy Systems

Chemical vapor deposition (CVD) is regarded as a promising fabrication method for the automated, large-scale, production of graphene and other 2D materials. However, its full commercial exploitation is limited by the presence of structural imperfections such folds, wrinkles and even cracks that downgrade its physical and mechanical properties. For example, as shown here by means of Raman spectroscopy, the stress transfer from an epoxy matrix to CVD graphene is on average 30% of that of exfoliated monolayer graphene of over 10 μm in dimensions. However, in terms of electrical response, the situation is reversed; the resistance has been found here to decrease by the imposition of mechanical deformation possibly due to the opening up of the structure and the associated increase of electron mobility. This finding paves the way for employing CVD graphene/epoxy composites or coatings as conductive “networks” or bridges in cases for which the conductivity needs to be increased or at least retained when the syste...