Gustavo A. Ferrari scite author profile

Graphene is regarded as the toughest two-dimensional material (highest in-plane elastic properties) and, as a consequence, it has been employed/proposed as an ultrathin membrane in a myriad of microfluidic devices. Yet, an experimental investigation of eventual variations on the apparent elastic properties of a suspended graphene membrane in contact with air or water is still missing. In this work, the mechanical response of suspended monolayer graphene membranes on a microfluidic platform is investigated via scanning probe microscopy experiments. A high elastic modulus is measured for the membrane when the platform is filled with air, as expected. However, a significant apparent softening of graphene is observed when water fills the microfluidic system. Through molecular dynamics simulations and a phenomenological model, we associate such softening to a water-induced uncrumpling process of the suspended graphene membrane. This result may bring substantial modifications on the design and operation of microfluidic devices which exploit pressure application on graphene membranes.

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The role of hydrogen partial pressure on the annealing of copper substrates for graphene CVD synthesis

Ramos

Cunha

Barcelos

et al. 2016

Mater. Res. Express

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Gustavo A. Ferrari

Synchrotron infrared nanospectroscopy on a graphene chip

Apparent Softening of Wet Graphene Membranes on a Microfluidic Platform

The role of hydrogen partial pressure on the annealing of copper substrates for graphene CVD synthesis

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