Diffusion of supercritical fluids through single-layer nanoporous solids: theory and molecular simulations F Oulebsir, R Vermorel, G Galliero Langmuir 34 (2), 561–571, 2017 | 4 | 2017 |

Communication: A method to compute the transport coefficient of pure fluids diffusing through planar interfaces from equilibrium molecular dynamics simulations R Vermorel, F Oulebsir, G Galliero The Journal of Chemical Physics 147 (10), 101102, 2017 | 1 | 2017 |

Permeation of gas through single-layer nanoporous graphene membranes: theory and molecular simulations. R Vermorel, F Oulebsir, J Guo, G Galliero InterPore 2019, 2019 | | 2019 |

Permeation and separation of gas through single-layer nanoporous graphene membranes: theory and molecular simulations R Vermorel, J Guo, F Oulebsir, G Galliero | | 2018 |

Transport of fluids in microporous materials F Oulebsir University of Pau, 2017 | | 2017 |

Diffusion of supercritical fluids through single-layer nanoporous solids: theory and molecular simulations R Vermorel, F Oulebsir, G Galliero | | 2017 |

Molecular Simulations of Transport and Separation of Fluids through Nanoporous Materials: from Toy Models to Kerogen Molecular Models F Oulebsir, J Collel, R Vermorel, G Galliero | | 2017 |

Perméation de gaz à travers une constriction nanoporeuse: théorie et simulations F Oulebsir, R Vermorel, G Galliero | | 2016 |

Permeation of supercritical fluids through microporous constrictions by molecular simulations F Oulebsir, R Vermorel, G Galliero | | 2016 |

Molecular simulations of supercritical fluids diffusing through microporous constrictions F Oulebsir, R Vermorel, G Galliero | | 2015 |

Permeation of gas through nanoporous constrictions: theory and simulations F OULEBSIR, R VERMOREL, G GALLIERO | | |