Extremely permeable porous graphene with high H2/CO2 separation ability achieved by graphene surface rejection.

@article{Shimizu2017ExtremelyPP,
  title={Extremely permeable porous graphene with high H2/CO2 separation ability achieved by graphene surface rejection.},
  author={K Shimizu and Takuya Ohba},
  journal={Physical chemistry chemical physics : PCCP},
  year={2017},
  volume={19 28},
  pages={
          18201-18207
        }
}
  • K. Shimizu, T. Ohba
  • Published 19 July 2017
  • Physics
  • Physical chemistry chemical physics : PCCP
Fabrication of a graphene separation sheet is difficult because of the necessity for leakage-free graphene transfer onto a substrate. In this study, porous graphene sheets with thicknesses of one, two, and four layers were directly fabricated on stainless-steel mesh substrates and demonstrated to display high separation ability for H2, CO2, and CH4. The single-layer graphene sample exhibited higher permeance for these molecules than double- and four-layer graphene and displayed similar high… 
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References

SHOWING 1-10 OF 63 REFERENCES
The thinnest molecular separation sheet by graphene gates of single-walled carbon nanohorns.
TLDR
Control of the gates is the primary challenge for high-performance separation membranes made of graphene and these findings provide unambiguous evidence of the importance of graphene gates on the picometer level.
Influence of chemical functionalization on the CO₂/N₂ separation performance of porous graphene membranes.
TLDR
This work provides an effective way to improve the gas separation performance of porous graphene membranes, which may be useful for designing new concept membranes for other gases.
Fluorine-Modified Porous Graphene as Membrane for CO2/N2 Separation: Molecular Dynamic and First-Principles Simulations
It is demonstrated that the fluorine-modified porous graphene membrane has excellent selectivity for CO2/N2 separation by using molecular dynamic (MD) simulations. We also investigated in detail the
Separation of Hydrogen and Nitrogen Gases with Porous Graphene Membrane
We designed a series of porous graphene as the separation membrane of H2/N2. The selectivity and permeability could be controlled by drilling various nanopores with different shapes and sizes. The
Porous graphene as the ultimate membrane for gas separation.
TLDR
Porous graphene sheets are proposed as one-atom-thin, highly efficient, and highly selective membranes for gas separation, which could have widespread impact on numerous energy and technological applications; including carbon sequestration, fuel cells, and gas sensors.
Application of nanoporous graphene membranes in natural gas processing: Molecular simulations of CH4/CO2, CH4/H2S and CH4/N2 separation
Selective Gas Transport Through Few-Layered Graphene and Graphene Oxide Membranes
TLDR
It is demonstrated that few- and several-layered graphene and graphene oxide (GO) sheets can be engineered to exhibit the desired gas separation characteristics, and tunable gas transport behavior was strongly dependent on the degree of interlocking within the GO stacking structure.
Growth of nano-textured graphene coatings across highly porous stainless steel supports towards corrosion resistant coatings
Casting molecular channels through domain formation: high performance graphene oxide membranes for H2/CO2 separation
Graphene oxide (GO) membranes have generated a great deal of interest in the development of high performance membranes for gas separation. However, metastable GO undergoes structural transformation
Ultimate Permeation Across Atomically Thin Porous Graphene
TLDR
Highly efficient mass transfer across physically perforated double-layer graphene is reported, having up to a few million pores with narrowly distributed diameters between less than 10 nanometers and 1 micrometer, in agreement with predictions of 2D transport theories.
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