Ultimate Permeation Across Atomically Thin Porous Graphene
Board of the Swiss Federal Institutes of Technology · Swiss Federal Laboratories for Materials Science and Technology · +1 more institution
Abstract
A two-dimensional (2D) porous layer can make an ideal membrane for separation of chemical mixtures because its infinitesimal thickness promises ultimate permeation. Graphene--with great mechanical strength, chemical stability, and inherent impermeability--offers a unique 2D system with which to realize this membrane and study the mass transport, if perforated precisely. We report highly efficient mass transfer across physically perforated double-layer graphene, having up to a few million pores with narrowly distributed diameters between less than 10 nanometers and 1 micrometer. The measured transport rates are in agreement with predictions of 2D transport theories. Attributed to its atomic thicknesses, these…
Citation impact
- FWCI
- 32.30
- Percentile
- 100%
- References
- 46
Authors
9- KÇKemal ÇelebiCorresponding
Board of the Swiss Federal Institutes of Technology
- JBJakob Buchheim
Board of the Swiss Federal Institutes of Technology
- RMRoman M. Wyss
Board of the Swiss Federal Institutes of Technology
- ADAmirhossein Droudian
Board of the Swiss Federal Institutes of Technology
- PGPatrick Gasser
Board of the Swiss Federal Institutes of Technology
Topics & keywords
- Membrane
- Graphene
- Permeation
- Materials science
- Selectivity
- Porosity
- Thin film
- Nanotechnology