W. U. , H. , J. Chen, and H. Liu, «Molecular dynamics simulations about adsorption and displacement of methane in carbon nanochannels», The Journal of Physical Chemistry C, vol.119, pp.13-652, 2015.

X. , J. , F. Zeng, H. Liang, B. Li et al., «Molecular simulation of the ch4/co2/h2o adsorption onto the molecular structure of coal», Science China Earth Sciences, vol.57, pp.1749-1759, 2014.

Y. , Z. , V. Mata, and A. E. Rodrigues, «Adsorption of carbon dioxide on basic alumina at high temperatures», Journal of Chemical & Engineering Data, vol.45, issue.6, pp.1093-1095, 2000.

B. , D. Et, and M. Gérin, La substitution des solvants par la N-méthyl-2-pyrrolidone, 1999.

B. and J. , «The electrochemical preparation and properties of ionic alkali metal-and nr4graphite intercalation compounds in organic electrolytes», Carbon, vol.14, issue.2, pp.111-115, 1976.

B. and S. C. , Fiche de données de sécurité : Tetrabutylammonium tetrafluoroborate, p.133, 2016.

C. , Tetramethylammonium Perchlorate Basic Information, p.133, 2016.

C. , A. J. , M. Velicky, I. A. Kinloch, and R. A. Dryfe, «On the controlled electrochemical preparation of r4n+ graphite intercalation compounds and their host structural deformation effects», Journal of Electroanalytical Chemistry, vol.730, pp.34-40, 2014.

C. , A. J. , N. R. Wilson, I. A. Kinloch, and R. A. Dryfe, «Single stage electrochemical exfoliation method for the production of few-layer graphene via intercalation of tetraalkylammonium cations», Carbon, vol.66, p.143, 2014.

E. J. Bottani and J. M. , Adsorption by carbons, 1 re éd, p.130, 2008.

F. and M. , Intercalation d'alliages or-potassium et calcium-lithium dans des structures carbonées de basse dimensionnalité, 2014.

F. and E. W. , Industrial Solvents Handbook, 5 e éd, 1999.

F. , K. Et, and G. Cadenbach, «Die bindung von kalium durch kohlenstoff», Zeitschrift für anorganische und allgemeine Chemie, vol.158, pp.249-263, 1926.

G. , D. Et, and A. H. , «Intercalation of lithium into graphite and other carbons», vol.13, pp.337-345, 1975.

H. , C. Et, and P. L. , «Composés d'intercalation du graphite : des binaires aux ternaires», vol.6, pp.457-465, 2003.

M. and N. ;. Universite-de-poitiers, Synthèse et Caractérisation de Matériaux électrocatalytiques pour l'Activation de la Molécule d'Eau : Application dans une Anode d'électrolyseur de Type PEM, thèse de doctorat, 2011.

M. Metrohm, Autolab : Instruments for electrochemical research, p.136

S. , W. , A. A. Adenuga, V. T. Remcho, and M. M. Lerner, «Preparation and characterization of a tetrabutylammonium graphite intercalation compound», Journal of the American Chemical Society, vol.133, p.131, 2011.

F. Bibliographie-toxicologiques, Base de données FICHES TOXICOLOGIQUES :N-Méthyl-2-pyrrolidone Fiche toxicologique n°213, 2008.

Y. , R. Et, and P. Touzain, «A reversible graphite-lithium negative electrode for electrochemical generators», Journal of Power Sources, vol.9, issue.83, p.130, 1983.

P. Bernier and S. L. Et, Le Carbone Dans Tous Ses Etats, Editions scientifiques GB, ISBN 9789056990572, p.154, 1997.

D. , V. A. , and C. T. , Theory of the Diffraction Phenomenon Produced by Powders of Microcrystals with a Lamellar Structure, 1990.

G. , A. , and G. F. , Small-Angle Scattering of X-rays, vol.148, 1955.

O. , M. , M. Sanchez, A. Del-rio, M. Tuffanelli et al., «X-ray topographic determination of the granular structure in a graphite mosaic crystal : a three-dimensional reconstruction», Journal of Applied Crystallography, vol.33, pp.1023-1030, 2000.

O. , Y. , S. Shimomura, and A. Chiba, «Double bragg scattering observed in small-angle x-ray scattering from highly oriented pyrolytic graphite», Journal of Applied Crystallography, vol.49, issue.9, pp.835-844, 2016.

P. and M. , Analyse multiéchelle de carbones pyrolytiques, p.153, 2014.

P. and D. , Science et technique des carbones : de l'énergie aux matériaux, 2012.

R. , F. Et, and D. T. , «Méthode d'analyse du profil de bande produite par des feuillets diffractants ayant une forme anisométrique», J. Appl. Cryst, vol.8, pp.365-371, 1975.

G. A. West and C. , , 2017.

, , pp.7471-7483

S. K. Bhatia, «Characterizing structural complexity in disordered carbons : From the slit pore to atomistic models», vol.33, pp.831-847, 2017.

F. , C. J. , and J. D. Gezelter, «Is the ewald summation still necessary ? pairwise alternatives to the accepted standard for long-range electrostatics», The Journal of Chemical Physics, vol.124, pp.1-12, 2006.

G. , W. , T. Hoefler, E. Lusk, and R. Thakur, Using Advanced MPI : Modern Features of the MessagePassing Interface, Computer science & intelligent systems, 2014.

G. , W. , E. Lusk, and A. Skjellum, Using MPI : Portable Parallel Programming with the MessagePassing Interface, Scientific and Engineering Computation, 2014.

L. , T. Et, and J. Hutter, ewald summation of electrostatic multipole interactions up to quadrupolar level, The Journal of Chemical Physics, vol.119, p.74102, 2003.

M. , R. L. , and L. Pusztai, «Reverse monte carlo simulation : A new technique for the determination of disordered structures», Molecular Simulation, vol.1, issue.6, pp.359-367, 1988.

N. , T. X. , N. Cohaut, J. Bae, and S. K. Bhatia, «New method for atomistic modeling of the microstructure of activated carbons using hybrid reverse monte carlo simulation», Langmuir, vol.24, pp.7912-7922, 2008.

O. , G. , T. Petersen, and S. Russo, «Hrmc-2.1 : Hybrid reverse monte carlo method with silicon, carbon, germanium and silicon carbide potentials», Computer Physics Communications, vol.185, pp.1854-1855, 2014.

S. and B. , The C++ Programming Language : 4th Edition, Always learning, 2013.

A. Mélange,