M. Seyed-hamed-aboutalebi, Q. Moazzami-gudarzi, J. Bin-zheng, and . Kim, Spontaneous formation of liquid crystals in ultralarge graphene oxide dispersions

, Advanced Functional Materials, vol.21, issue.15, pp.2978-2988, 2011.

S. Al-zangana, M. Iliut, G. Boran, and M. Turner, Dielectric spectroscopy of isotropic liquids and liquid crystal phases with dispersed graphene oxide, Scientific Reports, vol.6, issue.1, 2016.

S. Al-zangana, M. Iliut, M. Turner, A. Vijayaraghavan, and I. Dierking, Properties of a thermotropic nematic liquid crystal doped with graphene oxide, Advanced Optical Materials, vol.4, issue.10, pp.1541-1548, 2016.

Y. Sung-jin-an, S. H. Zhu, M. D. Lee, T. Stoller, S. Emilsson et al., Thin film fabrication and simultaneous anodic reduction of deposited graphene oxide platelets by electrophoretic deposition, The Journal of Physical Chemistry Letters, vol.1, issue.8, pp.1259-1263, 2010.

A. Martin, D. Bates, and . Frenkel, Nematic-isotropic transition in polydisperse systems of infinitely thin hard platelets, The Journal of Chemical Physics, vol.110, issue.13, pp.6553-6559, 1999.

P. Bauduin, S. Prevost, P. Farràs, F. Teixidor, O. Diat et al., A theta-shaped amphiphilic cobaltabisdicarbollide anion: Transition from monolayer vesicles to micelles, Angewandte Chemie International Edition, vol.50, issue.23, pp.5298-5300, 2011.

N. Behabtu, J. R. Lomeda, M. J. Green, A. L. Higginbotham, A. Sinitskii et al., Spontaneous high-concentration dispersions and liquid crystals of graphene, Nature Nanotechnology, vol.5, issue.6, pp.406-411, 2010.

J. D. Bernal, The structure of graphite, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol.106, issue.740, pp.749-773, 1924.

J. Bruce, R. Berne, and . Pecora, Dynamic Light Scattering: With Applications to Chemistry, Biology, and Physics. Dover Books on Physics Series, vol.0486411559, 2000.

H. , K. Bisoyi, and S. Kumar, Carbon-based liquid crystals: art and science, Liquid Crystals, vol.38, pp.1427-1449, 2011.
DOI : 10.1080/02678292.2011.597882

H. P. Boehm, A. Clauss, G. O. Fischer, and U. Hofmann, Das adsorptionsverhalten sehr dünner kohlenstoff-folien. Zeitschrift für anorganische und allgemeine Chemie, vol.316, pp.119-127, 1962.
DOI : 10.1002/zaac.19623160303

H. P. Boehm, R. Setton, and E. Stumpp, Nomenclature and terminology of graphite intercalation compounds (IUPAC recommendations 1994), Pure and Applied Chemistry, vol.66, issue.9, pp.1893-1901, 1994.

K. Bougis, R. Leite-rubim, N. Ziane, J. Peyencet, A. Bentaleb et al., Stabilising lamellar stacks of lipid bilayers with soft confinement and steric effects, The European Physical Journal E, vol.38, issue.7, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01176176

K. Bougis, Fluctuations et interactions en situation de nano-confinement anisotrope, 2016.
URL : https://hal.archives-ouvertes.fr/tel-01467066

S. Bradbury, An Introduction to the Optical Microscope (Royal Microscopical Society Microscopy Handbooks), 1989.

B. C. Brodie, On the atomic weight of graphite, Philosophical Transactions of the Royal Society of London, vol.149, issue.0, pp.249-259, 1859.

D. Brusselle, P. Bauduin, L. Girard, A. Zaulet, C. Viñas et al., Lyotropic lamellar phase formed from monolayered ?-shaped carborane-cage amphiphiles, Angewandte Chemie, vol.125, issue.46, pp.12336-12340, 2013.
DOI : 10.1002/ange.201307357

URL : https://hal.archives-ouvertes.fr/hal-02117121

A. Caillé, Remarques sur la diffusion des rayons x dans les smectiques A. Comptes rendus hebdomadaires des séances de l'Académie des sciences, Séries B, vol.274, issue.14, pp.891-893, 1972.

J. Cao, R. Hua-jie-yin, and . Song, Circular dichroism of graphene oxide: the chiral structure model, Frontiers of Materials Sciences, vol.7, issue.1, pp.83-90, 2013.

G. Cinacchi and A. Tani, The isotropic-nematic phase transition in hard, slightly curved, lens-like particles, The Journal of Chemical Physics, vol.141, issue.15, p.154901, 2014.

G. Cinacchi and A. Tani, Isotropic-nematic phase transition in hard platelets as described by a third-virial theory, The Journal of Physical Chemistry B, vol.119, issue.17, pp.5671-5676, 2015.

L. J. Cote, R. Cruz-silva, and J. Huang, Flash reduction and patterning of graphite oxide and its polymer composite, Journal of the American Chemical Society, vol.131, issue.31, pp.11027-11032, 2009.

E. Silva, Structure and dynamics of DNA confined in-between non-cationic lipid membranes, 2011.
URL : https://hal.archives-ouvertes.fr/tel-00755050

N. Budhadipta-dan, A. Behabtu, J. S. Martinez, D. V. Evans, J. M. Kosynkin et al., Liquid crystals of aqueous, giant graphene oxide flakes, Soft Matter, vol.7, issue.23, pp.11154-11159, 2011.

P. Gennes and J. Prost, The Physics of Liquid Crystals, 1995.

D. Demus and L. Richter, Textures of Liquid Crystals. VEB Deutscher Verlag für Grundstoffindustrie, vol.3527257969, 1978.

A. D. Mauro, R. Randazzo, S. F. Spano, G. Compagnini, M. Gaeta et al., Vortexes tune the chirality of graphene oxide and its non-covalent hosts, Chem. Commun, vol.52, issue.89, pp.13094-13096, 2016.

I. Dierking and S. Al-zangana, Lyotropic liquid crystal phases from anisotropic nanomaterials, Nanomaterials, vol.7, issue.10, p.305, 2017.
DOI : 10.3390/nano7100305

URL : https://www.mdpi.com/2079-4991/7/10/305/pdf

A. Dmitriy, S. Dikin, E. J. Stankovich, R. D. Zimney, . Piner et al., Preparation and characterization of graphene oxide paper, Nature, vol.448, issue.7152, pp.457-460, 2007.

, Per Ekwall. Composition, properties and structures of liquid crystalline phases in systems of amphiphilic compounds, Advances in Liquid Crystals, pp.1-142, 1975.

L. A. Feigin and D. I. Svergun, Structure Analysis by Small-Angle X-Ray and Neutron Scattering, vol.0306426293, 1987.
DOI : 10.1007/978-1-4757-6624-0

K. Fontell, L. Mandell, H. Lehtinen, and P. Ekwall, The three-component system sodium caprylate-decanol-water: III. the structure of the mesophases at 20 ? C. Acta Polytechnica Scandinavica, Chemistry including metallurgy series, vol.74, pp.1-56, 1968.
DOI : 10.3891/acta.chem.scand.16-2294

URL : http://actachemscand.org/pdf/acta_vol_16_p2294-2297.pdf

R. E. Franklin, The structure of graphitic carbons, Acta Crystallographica, vol.4, issue.3, pp.253-261, 1951.

D. Frenkel and R. Eppenga, Monte Carlo study of the isotropic-nematic transition in a fluid of thin hard disks, Physical Review Letters, vol.49, issue.15, pp.1089-1092, 1982.

E. Freyssingeas, D. Roux, and F. Nallet, Quasi-elastic light scattering study of highly swollen lamellar and "sponge" phases, Journal de Physique, vol.II, issue.6, pp.913-929, 1997.
URL : https://hal.archives-ouvertes.fr/jpa-00248486

R. Frost, G. E. Jönsson, D. Chakarov, S. Svedhem, and B. Kasemo, Graphene oxide and lipid membranes: Interactions and nanocomposite structures, Nano Letters, vol.12, issue.7, pp.3356-3362, 2012.
DOI : 10.1021/nl203107k

C. P. Jean-, F. Gabriel, B. J. Camerel, H. Lemaire, P. Desvaux et al., Swollen liquid-crystalline lamellar phase based on extended solid-like sheets, Nature, vol.413, pp.504-508, 2001.

W. Gao, L. B. Alemany, L. Ci, and P. M. Ajayan, New insights into the structure and reduction of graphite oxide, Nature Chemistry, vol.1, issue.5, pp.403-408, 2009.

A. K. Geim, Graphene: Status and prospects, Science, vol.324, issue.5934, pp.1530-1534, 2009.
DOI : 10.1126/science.1158877

URL : http://www.condmat.physics.manchester.ac.uk/pdf/mesoscopic/publications/graphene/science review 2009.pdf

A. K. Geim and K. S. Novoselov, The rise of graphene, Nature Materials, vol.6, issue.3, pp.183-191, 2007.

F. Geng, R. Ma, A. Nakamura, K. Akatsuka, Y. Ebina et al., Unusually stable?100stable?100-fold reversible and instantaneous swelling of inorganic layered materials, Nature Communications, vol.4, p.1632, 2013.

B. B. Gerbelli, R. L. Rubim, E. R. Silva, F. Nallet, L. Navailles et al., Steric-induced effects on stabilizing a lamellar structure, Langmuir, vol.29, issue.45, pp.13717-13722, 2013.
DOI : 10.1021/la402962c

URL : https://hal.archives-ouvertes.fr/hal-00905406

O. Glatter and O. Kratky, Small Angle X-Ray Scattering. Academic Pr, 1982.

. Graphenea, Product Datasheet: Graphene Oxide, pp.2018-2022, 2014.

G. Mohsen-moazzami, Colloidal stability of graphene oxide: Aggregation in two dimensions, Langmuir, vol.32, issue.20, pp.5058-5068, 2016.

L. Gunther, Y. Imry, and J. Lajzerowicz, X-ray scattering in smectic-A liquid crystals, Physical Review A, vol.22, issue.4, pp.1733-1740, 1980.

F. Guo, F. Kim, T. H. Han, V. B. Shenoy, J. Huang et al., Hydration-responsive folding and unfolding in graphene oxide liquid crystal phases, ACS Nano, vol.5, issue.10, pp.8019-8025, 2011.

H. Ham, T. Van-khai, N. Park, D. Sup-so, J. Lee et al., Freeze-drying-induced changes in the properties of graphene oxides, Nanotechnology, vol.25, issue.23, pp.1-8, 2014.

N. Holt-hartshorne, The Microscopy of Liquid Crystals. Monographs in microscope series, 1974.

W. Helfrich, Steric interaction of fluid membranes in multilayer systems, Zeitschrift für Naturforschung A, vol.33, issue.3, 1978.

T. C. Huang, H. Toraya, T. N. Blanton, and Y. Wu, X-ray powder diffraction analysis of silver behenate, a possible low-angle diffraction standard, Journal of Applied Crystallography, vol.26, issue.2, pp.180-184, 1993.

A. W. Hull, A new method of x-ray crystal analysis, Physical Review, vol.10, issue.6, pp.661-696, 1917.

S. William, R. E. Hummers, and . Offeman, Preparation of graphitic oxide, Journal of the American Chemical Society, vol.80, issue.6, pp.1339-1339, 1958.

S. Hun, Thermal reduction of graphene oxide, Physics and Applications of Graphene-Experiments. InTech, 2011.

J. D. Hunter, Matplotlib: A 2d graphics environment, Computing in Science & Engineering, vol.9, issue.3, pp.90-95, 2007.
DOI : 10.1109/mcse.2007.55

J. N. Israelachvili, Intermolecular and Surface Forces, 2015.

M. M. Masateru, K. Ito, M. Ito, K. Shibayama, H. Sugiyama et al., Phase behavior of block copolymers in selective supercritical solvent. Macromolecules, vol.48, pp.3590-3597, 2015.

R. Jalili, D. Seyed-hamed-aboutalebi, K. Esrafilzadeh, S. E. Konstantinov, J. M. Moulton et al., Organic solventbased graphene oxide liquid crystals: A facile route toward the next generation of selfassembled layer-by-layer multifunctional 3D architectures, ACS Nano, vol.7, issue.5, pp.3981-3990, 2013.

E. Jones, T. Oliphant, and P. Peterson, SciPy: Open source scientific tools for Python, 2001.

A. L. Richard and . Jones, Soft Condensed Matter (Oxford Master Series in Condensed Matter Physics, vol.6, p.198505892, 2002.

H. Kelker and R. Hatz, Handbook of Liquid Crystals, pp.3-527, 1980.

B. Kelly, Physics of Graphite, 1981.

J. Kim, L. J. Cote, and J. Huang, Two dimensional soft material: New faces of graphene oxide, Accounts of Chemical Research, vol.45, issue.8, pp.1356-1364, 2012.

, Graphene oxide liquid crystals, Angewandte Chemie International Edition, vol.50, issue.13, pp.3043-3047, 2011.

D. Kleshchanok, P. Holmqvist, J. Meijer, N. W. Henk, and . Lekkerkerker, Lyotropic smectic B phase formed in suspensions of charged colloidal platelets, Journal of the American Chemical Society, vol.134, issue.13, pp.5985-5990, 2012.

B. Konkena and S. Vasudevan, Glass, gel, and liquid crystals: Arrested states of graphene oxide aqueous dispersions, The Journal of Physical Chemistry C, vol.118, issue.37, pp.21706-21713, 2014.

O. Kratky and G. Porod, Diffuse small-angle scattering of x-rays in colloid systems, Journal of Colloid Science, vol.4, issue.1, p.90032, 1949.

F. V. Kusmartsev, W. M. Wu, M. P. Pierpoint, and K. C. Yung, Application of graphene within optoelectronic devices and transistors, Progress in Optical Science and Photonics, pp.191-221, 2014.

L. Davidovich-landau, On the theory of phase transitions, Zh. Eksp. Teor. Fiz, vol.7, pp.25-35, 1937.

F. C. Larche, J. Appell, G. Porte, P. Bassereau, and J. Marignan, Extreme swelling of a lyotropic lamellar liquid crystal, Physical Review Letters, vol.56, issue.16, pp.1700-1703, 1986.

A. Lerf, A. Buchsteiner, J. Pieper, S. Schöttl, I. Dekany et al., Hydration behavior and dynamics of water molecules in graphite oxide, Journal of Physics and Chemistry of Solids, vol.67, issue.5-6, pp.1106-1110, 2006.

, Liquid Crystals, volume 14 of Solid State Physics Supplements, pp.0-12, 1978.

, Neutron, X-rays and Light. Scattering Methods Applied to Soft Condensed Matter, p.444511229, 2002.

R. Lipowsky and S. Leibler, Unbinding transitions of interacting membranes, Physical Review Letters, vol.56, issue.23, pp.2541-2544, 1986.

V. Luzzati and F. Husson, The structure of the liquid-crystalline phases of lipid-water systems, The Journal of Cell Biology, vol.12, issue.2, pp.207-219, 1962.

M. Marcaccio and F. Paolucci, Making and Exploiting Fullerenes, Graphene, and Carbon Nanotubes, 2014.

D. C. Marcano, D. V. Kosynkin, J. M. Berlin, A. Sinitskii, Z. Sun et al., Improved synthesis of graphene oxide, ACS Nano, vol.4, issue.8, pp.4806-4814, 2010.

V. Nikhil, A. Medhekar, R. S. Ramasubramaniam, V. B. Ruoff, and . Shenoy, Hydrogen bond networks in graphene oxide composite paper: Structure and mechanical properties, ACS Nano, vol.4, issue.4, pp.2300-2306, 2010.

N. D. Mermin, Crystalline order in two dimensions, Physical Review, vol.176, issue.1, pp.250-254, 1968.

L. J. Michot, I. Bihannic, S. Maddi, S. Sérgio, C. Funari et al., Liquid-crystalline aqueous clay suspensions, Proceedings of the National Academy of Sciences, vol.103, pp.16101-16104, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01121441

S. T. Milner and D. Roux, Flory theory of the unbinding transition, Journal de Physique I, vol.2, issue.9, pp.1741-1754, 1992.
URL : https://hal.archives-ouvertes.fr/jpa-00246656

K. Velram-balaji-mohan, D. Lau, D. Hui, and . Bhattacharyya, Graphenebased materials and their composites: A review on production, applications and product limitations, Composites Part B: Engineering, vol.142, pp.200-220, 2018.

D. Myers, Surfaces, Interfaces, and Colloids: Principles and Applications, 1999.

F. Nallet, IntroductionàIntroduction`Introductionà la diffusion aux petits angles. ´ Ecole thématique de la
URL : https://hal.archives-ouvertes.fr/cel-00577143

. Société-française-de-la-neutronique, , vol.11, pp.17-42, 2010.

F. Nallet, Surfactant films in lyotropic lamellar (and related) phases: Fluctuations and interactions, Advances in Colloid and Interface Science, vol.247, pp.363-373, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01590213

F. Nallet, R. Laversanne, and D. Roux, Modelling x-ray or neutron scattering spectra of lyotropic lamellar phases: Interplay between form and structure factors, Journal de Physique, vol.II, issue.4, pp.487-502, 1993.
URL : https://hal.archives-ouvertes.fr/jpa-00247849

, IUPAC Compendium of Chemical Terminology, 2009.

B. W. Ninham, On progress in forces since the DLVO theory, Advances in Colloid and Interface Science, vol.83, issue.1-3, pp.8-9, 1999.

G. Massimo, W. M. Noro, and . Gelbart, Theory of lamellar-lamellar phase transitions in pure and mixed surfactant solutions, The Journal of Chemical Physics, vol.111, issue.8, pp.3733-3743, 1999.

K. S. Novoselov, A. K. Geim, S. V. Morozov, D. Jiang, Y. Zhang et al., Electric field effect in atomically thin carbon films

, Science, vol.306, issue.5696, pp.666-669, 2004.

C. Luis, P. Oliveira, and J. Pedersen,

L. Onsager, The effect of shape on the interaction of colloidal particles, Annals of the New York Academy of Sciences, vol.51, pp.627-659, 1949.

D. Orthaber, A. Bergmann, and O. Glatter, SAXS experiments on absolute scale with Kratky systems using water as a secondary standard, Journal of Applied Crystallography, vol.33, issue.2, pp.218-225, 2000.

J. H. Park and N. R. Aluru, Self-assembly of graphenes, Surface Science, pp.1616-1620, 2011.

S. Pei and H. Cheng, The reduction of graphene oxide, Carbon, vol.50, issue.9, pp.3210-3228, 2012.

P. Poulin, R. Jalili, W. Neri, F. Nallet, T. Divoux et al., Superflexibility of graphene oxide, Proceedings of the National Academy of Sciences, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01394706

O. V. Prezhdo, Graphene-the ultimate surface material, Surface Science, pp.1607-1610, 2011.

L. Qiu, J. Z. Liu, S. L. Chang, Y. Wu, and D. Li, Biomimetic superelastic graphene-based cellular monoliths, Nature Communications, vol.3, issue.1, 2012.

L. Reimer and H. Kohl, Transmission Electron Microscopy, Springer Series in Optical Sciences, vol.36, 2008.

B. Rezania, N. Severin, A. V. Talyzin, and J. P. Rabe, Hydration of bilayered graphene oxide, Nano Letters, vol.14, issue.7, pp.3993-3998, 2014.

J. D. Stéphanrouzì-ere, E. Núñez, A. M. Paineau, W. K. Benito, P. Maser et al., Intercalated water in multi-layered graphene oxide paper: an x-ray scattering study, Journal of Applied Crystallography, vol.50, issue.3, pp.876-884, 2017.

R. Leite-rubim, B. B. Gerbelli, K. Bougis, C. L. Pinto-de-oliveira, L. Navailles et al., Water activity in lamellar stacks of lipid bilayers: "hydration forces" revisited, The European Physical Journal E, vol.39, issue.1, 2016.

. Rafael-leite-rubim, Study of interactions between lipid membranes by SAXS experiments: the role of the composition, 2014.

M. A. Rafael-leite-rubim, T. Barros, and . Missègue, Highly confined stacks of graphene oxide sheets in water, The European Physical Journal E, vol.41, issue.3, 2018.

E. Ruckenstein and M. Manciu, On the stability of lyotropic lamellar liquid crystals and the thicknesses of their lamellae, Langmuir, vol.17, issue.18, pp.5464-5475, 2001.

C. R. Safinya, D. Roux, G. S. Smith, S. K. Sinha, P. Dimon et al., Steric interactions in a model multimembrane system: A synchrotron x-ray study, Physical Review Letters, vol.57, issue.21, pp.2718-2721, 1986.

C. Hannes, J. Schniepp, M. J. Li, H. Mcallister, M. Sai et al., Functionalized single graphene sheets derived from splitting graphite oxide, The Journal of Physical Chemistry B, vol.110, issue.17, pp.8535-8539, 2006.

W. Scholz and H. P. Boehm, Untersuchungen am graphitoxid. VI. betrachtungen zur struktur des graphitoxids, Zeitschrift für anorganische und allgemeine Chemie, vol.369, issue.3-6, pp.327-340, 1969.

D. Shaw, Introduction to Colloid and Surface Chemistry, Fourth Edition (Colloid & Surface Engineering S), vol.0750611820, 1992.

M. Shibayama and T. Hashimoto, Small-angle x-ray scattering analyses of lamellar microdomains based on a model of one-dimensional paracrystal with uniaxial orientation, Macromolecules, vol.19, issue.3, pp.740-749, 1986.

. Dinesh-pratap, C. E. Singh, B. Herrera, S. Singh, R. K. Singh et al., Graphene oxide: An efficient material and recent approach for biotechnological and biomedical applications, Materials Science and Engineering: C, vol.86, pp.173-197, 2018.

K. Spyrou and P. Rudolf, An introduction to graphene. In Vasilios Georgakilas, editor, Functionalization of Graphene, pp.1-20, 2014.

S. Stankovich, A. Dmitriy, . Dikin, H. B. Geoffrey, K. M. Dommett et al., Graphene-based composite materials, Nature, vol.442, issue.7100, pp.282-286, 2006.

S. Stankovich, R. D. Piner, T. Sonbinh, R. S. Nguyen, and . Ruoff, Synthesis and exfoliation of isocyanate-treated graphene oxide nanoplatelets, Carbon, vol.44, issue.15, pp.3342-3347, 2006.

S. Stankovich, A. Dmitriy, R. D. Dikin, K. A. Piner, A. Kohlhaas et al., Synthesis of graphene-based nanosheets via chemical reduction of exfoliated graphite oxide. Carbon, vol.45, pp.1558-1565, 2007.

R. Strey, R. Schomäcker, D. Roux, F. Nallet, and U. Olsson, Dilute lamellar and L 3 phases in the binary water-C 12 E 5 system, J. Chem. Soc., Faraday Trans, vol.86, issue.12, pp.2253-2261, 1990.

P. Sun, Y. Wang, H. Liu, K. Wang, D. Wu et al., Structure evolution of graphene oxide during thermally driven phase transformation: Is the oxygen content really preserved?, PLoS ONE, vol.9, issue.11, pp.1-8, 2014.

R. Tkacz, R. Oldenbourg, B. Shalin, M. Mehta, and . Miansari, Amitabh Vermab, and Mainak Majumder. pH dependent isotropic to nematic phase transitions in graphene oxide dispersions reveal droplet liquid crystalline phases, Chemical Communications, vol.50, issue.50, pp.6668-6671, 2014.

L. Tong, W. Qi, M. Wang, R. Huang, R. Sua et al., Long-range ordered graphite oxide liquid crystals, Chemical Communications, vol.50, issue.58, pp.7776-7779, 2014.

Y. Uchida, T. Nishizawa, T. Omiya, Y. Hirota, and N. Nishiyama, Nanosheet formation in hyperswollen lyotropic lamellar phases, Journal of the American Chemical Society, vol.138, issue.4, pp.1103-1105, 2016.

M. Felix, . Van-der-kooij, N. W. Henk, and . Lekkerkerker, Formation of nematic liquid crystals in suspensions of hard colloidal platelets, The Journal of Physical Chemistry B, vol.102, issue.40, pp.7829-7832, 1998.

P. R. Wallace, The band theory of graphite, Physical Review, vol.71, issue.9, pp.622-634, 1947.

G. Wang, J. Yang, J. Park, X. Gou, B. Wang et al., Facile synthesis and characterization of graphene nanosheets, The Journal of Physical Chemistry C, vol.112, issue.22, pp.8192-8195, 2008.

L. Wang, X. Xin, M. Yang, X. Ma, Z. Feng et al., Comparative study of n-dodecyl tetraethylene monoether lyotropic liquid crystals incorporated with graphene and graphene oxide, Phys. Chem. Chem. Phys, vol.16, pp.20932-20940, 2014.

L. Wang, X. Xin, M. Yang, J. Shen, and S. Yuan, Incorporation of graphene oxide into C 12 E 4 /C 12 mimBr hybrid lyotropic liquid crystal and its thermosensitive properties, RSC Adv, vol.5, pp.68404-68412, 2015.

Z. Xu and C. Gao, Aqueous liquid crystals of graphene oxide, ACS Nano, vol.5, issue.4, pp.2908-2915, 2011.

Z. Xu and C. Gao, Graphene chiral liquid crystals and macroscopic assembled fibres, Nature Communications, vol.2, issue.571, pp.1-13, 2011.

Z. Xu and C. Gao, Graphene in macroscopic order: Liquid crystals and wet-spun fibers, Accounts of Chemical Research, vol.47, issue.4, pp.1267-1276, 2014.

Z. Xu, H. Sun, X. Zhao, and C. Gao, Ultrastrong fibers assembled from giant graphene oxide sheets, Advanced Materials, vol.25, issue.2, pp.188-193, 2013.

X. Yang, C. Guo, L. Ji, Y. Li, and Y. Tu, Liquid crystalline and shear-induced properties of an aqueous solution of graphene oxide sheets

, Langmuir, vol.29, issue.25, pp.8103-8107, 2013.

C. Zakri, C. Blanc, E. Grelet, C. Zamora-ledezma, N. Puech et al., Liquid crystals of carbon nanotubes and graphene, Philosophical Transactions A, vol.371, 1988.
URL : https://hal.archives-ouvertes.fr/hal-00797442

C. Zamora-ledezma, N. Puech, C. Zakri, E. Grelet, S. E. Moulton et al., Liquid crystallinity and dimensions of surfactant-stabilized sheets of reduced graphene oxide, The Journal of Physical Chemistry Letters, vol.3, issue.17, pp.2425-2430, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00737951

J. Zhang, Y. Ren, T. Xu, H. Yang, and Q. Xu, Liquid crystal graphene oxide with different layers: fabrication, characterization and applications, RSC Advances, vol.5, issue.115, pp.94809-94813, 2015.

R. Zhang, R. M. Suter, and J. F. Nagle, Theory of the structure factor of lipid bilayers, Physical Review E, vol.50, issue.6, pp.5047-5060, 1994.

M. Zhou, Y. Wang, Y. Zhai, J. Zhai, W. Ren et al., Controlled synthesis of large-area and patterned electrochemically reduced graphene oxide films, Chemistry-A European Journal, vol.15, issue.25, pp.6116-6120, 2009.

X. Zhou, B. Wang, T. Lan, H. Chen, H. Wang et al., Chirality of graphene oxide-humic acid sandwich complex induced by a twisted, long-range-ordered nanostructure, The Journal of Physical Chemistry C, vol.120, issue.45, pp.25789-25795, 2016.

S. William, R. E. Hummers, and . Offeman, Preparation of graphitic oxide, Journal of the American Chemical Society, vol.80, issue.6, pp.1339-1339, 1958.

S. Stankovich, A. Dmitriy, R. D. Dikin, K. A. Piner, A. Kohlhaas et al., Synthesis of graphene-based nanosheets via chemical reduction of exfoliated graphite oxide, Carbon, vol.45, issue.7, pp.1558-1565, 2007.

N. Behabtu, J. R. Lomeda, M. J. Green, A. L. Higginbotham, A. Sinitskii et al.,

D. Kosynkin, A. Tsentalovich, G. Nicholas, J. Parravasquez, E. Schmidt et al., Spontaneous high-concentration dispersions and liquid crystals of graphene, Nature Nanotechnology, vol.5, pp.406-411, 2010.

J. E. Kim, T. H. Han, S. H. Lee, J. Y. Kim, C. W. Ahn et al., Graphene oxide liquid crystals, Angewandte Chemie International Edition, vol.50, issue.13, pp.3043-3047, 2011.

H. , K. Bisoyi, and S. Kumar, Carbon-based liquid crystals: art and science, Liquid Crystals, vol.38, pp.1427-1449, 2011.

Z. Xu and C. Gao, Graphene chiral liquid crystals and macroscopic assembled fibres, Nature Communications, vol.2, p.571, 2011.

R. Frost, G. E. Jönsson, D. Chakarov, S. Svedhem, and B. Kasemo, Graphene oxide and lipid membranes: Interactions and nanocomposite structures, NANO Letters, vol.12, pp.3356-3362, 2012.

J. Kim, L. J. Cote, and J. Huang, Two dimensional soft material: New faces of graphene oxide, Accounts of Chemical Research, vol.45, issue.8, pp.1356-1364, 2012.

Z. Xu and C. Gao, Aqueous liquid crystals of graphene oxide, ACS Nano, vol.5, issue.4, pp.2908-2915, 2011.

M. Seyed-hamed-aboutalebi, Q. Moazzami-gudarzi, J. Bin-zheng, and . Kim, Spontaneous formation of liquid crystals in ultralarge graphene oxide dispersions, Advanced Functional Materials, vol.21, issue.15, pp.2978-2988, 2011.

N. Budhadipta-dan, A. Behabtu, J. S. Martinez, D. V. Evans, J. M. Kosynkin et al., Liquid crystals of aqueous, giant graphene oxide flakes, Soft Matter, vol.7, issue.23, pp.11154-11159, 2011.

C. Zamora-ledezma, N. Puech, C. Zakri, E. Grelet, S. E. Moulton et al., Liquid crystallinity and dimensions of surfactant-stabilized sheets of reduced graphene oxide, The Journal of Physical Chemistry Letters, vol.3, issue.17, pp.2425-2430, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00737951

. Rafael-leite-rubim, Highly Confined Stacks of Graphene Oxide Sheets in Water

J. Cao, R. Hua-jie-yin, and . Song, Circular dichroism of graphene oxide: the chiral structure model, Frontiers of Materials Sciences, vol.7, pp.83-90, 2013.

A. D. Mauro, R. Randazzo, S. F. Spano, G. Compagnini, M. Gaeta et al., Vortexes tune the chirality of graphene oxide and its non-covalent hosts, Chem. Commun, vol.52, pp.13094-13096, 2016.

C. P. Jean-, F. Gabriel, B. J. Camerel, H. Lemaire, P. Desvaux et al., Swollen liquid-crystalline lamellar phase based on extended solid-like sheets, Nature, vol.413, pp.504-508, 2001.

L. J. Michot, I. Bihannic, S. Maddi, S. Sérgio, C. Funari et al., Liquid-crystalline aqueous clay suspensions, Proceedings of the National Academy of Sciences, vol.103, pp.16101-16104, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01121441

D. Kleshchanok, P. Holmqvist, J. Meijer, N. W. Henk, and . Lekkerkerker, Lyotropic smectic B phase formed in suspensions of charged colloidal platelets, Journal of the American Chemical Society, vol.134, pp.5985-5990, 2012.

L. Onsager, The effect of shape on the interaction of colloidal particles, Annals of the New York Academy of Sciences, vol.51, pp.627-659, 1949.

D. Frenkel and R. Eppenga, Monte Carlo study of the isotropic-nematic transition in a fluid of thin hard disks, Physical Review Letters, vol.49, pp.1089-1092, 1982.

G. Cinacchi and A. Tani, The isotropic-nematic phase transition in hard, slightly curved, lens-like particles, The Journal of Chemical Physics, vol.141, p.154901, 2014.

G. Cinacchi and A. Tani, Isotropic-nematic phase transition in hard platelets as described by a thirdvirial theory, The Journal of Physical Chemistry B, vol.119, pp.5671-5676, 2015.

M. Felix, . Van-der-kooij, N. W. Henk, and . Lekkerkerker, Formation of nematic liquid crystals in suspensions of hard colloidal platelets, The Journal of Physical Chemistry B, vol.102, issue.40, pp.7829-7832, 1998.

A. Martin, D. Bates, and . Frenkel, Nematic-isotropic transition in polydisperse systems of infinitely thin hard platelets, The Journal of Chemical Physics, vol.110, issue.13, pp.6553-6559, 1999.

Z. Xu and C. Gao, Graphene in macroscopic order: Liquid crystals and wet-spun fibers, Accounts of Chemical Research, vol.47, issue.4, pp.1267-1276, 2014.

F. Geng, R. Ma, A. Nakamura, K. Akatsuka, Y. Ebina et al., Unusually stable ?100-fold reversible and instantaneous swelling of inorganic layered materials, Nature Communications, vol.4, p.1632, 2013.

W. Helfrich, Steric interactions of fluid membranes in multilayer systems, Zeitschrift für Naturforschung, vol.33, pp.305-315, 1978.

R. Lipowski and S. Leibler, Unbinding transitions of interacting membranes, Physical Review Letters, vol.56, pp.2541-2544, 1986.

S. T. Milner and D. Roux, Product Datasheet: Graphenea Graphene Oxide, Journal de Physique I France, vol.2, pp.2015-2020, 1992.

W. Scholz and H. P. Boehm, Betrachtungen zur struktur des graphitoxids. Zeitschrift für anorganische und allgemeine Chemie, vol.369, pp.327-340, 1969.

A. Lerf, A. Buchsteiner, J. Pieper, S. Schottl, I. Dekany et al., Hydration behavior and dynamics of water molecules in graphite oxide, Journal of Physics and Chemistry of Solids, vol.67, pp.1106-1110, 2006.

J. D. Stéphanrouzì-ere, E. Núñez, A. M. Paineau, W. K. Benito, P. Maser et al., Intercalated water in multi-layered graphene oxide paper: an X-ray scattering study, Journal of Applied Crystallography, vol.50, pp.876-884, 2017.

H. Ham, T. Van-khai, N. Park, D. Sup-so, J. Lee et al., Freeze-drying-induced changes in the properties of graphene oxides, Nanotechnology, vol.25, p.235601, 2014.

T. C. Huang, H. Toraya, T. N. Blanton, and Y. Wu, X-ray powder diffraction analysis of silver behenate, a possible low-angle diffraction standard, Journal of Applied Crystallography, vol.26, pp.180-184, 1993.

O. Kratky and G. Porod, Diffuse small-angle scattering of x-rays in colloid systems, Journal of Colloid Science, vol.4, issue.1, pp.35-70, 1949.

J. D. Bernal, The structure of graphite, Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, vol.106, issue.740, pp.749-773, 1924.

F. C. Larche, J. Appell, G. Porte, P. Bassereau, and J. Marignan, Extreme swelling of a lyotropic lamellar liquid crystal, Physical Review Letters, vol.56, pp.1700-1703, 1986.

C. R. Safinya, D. Roux, G. S. Smith, S. K. Sinha, P. Dimon et al., Steric interactions in a model multimembrane system: A synchrotron x-ray study, Physical Review Letters, vol.57, pp.2718-2721, 1986.

R. Strey, R. Schomäcker, and D. Roux, Frédéric Nallet, and Ulf Olsson. Dilute lamellar and L3 phases in the binary water C12E5 system, Journal of the Chemical Society Faraday Transactions, vol.86, pp.2253-2261, 1990.

E. Freyssingeas, D. Roux, and F. Nallet, Quasi-elastic light scattering study of a highly swollen lamellar and "sponge" phase, Journal de Physique II France, vol.7, pp.913-929, 1997.

M. M. Masateru, K. Ito, M. Ito, K. Shibayama, H. Sugiyama et al., Phase behavior of block copolymers in selective supercritical solvent, Macromolecules, vol.48, pp.3590-3597, 2015.

Y. Uchida, T. Nishizawa, T. Omiya, Y. Hirota, and N. Nishiyama, Nanosheet formation in hyperswollen lyotropic lamellar phases, Journal of the American Chemical Society, vol.138, pp.1103-1105, 2016.

P. Poulin, R. Jalili, W. Neri, F. Nallet, T. Divoux et al., Superflexibility of graphene oxide, Proceedings of the National Academy of Sciences, vol.113, pp.11088-11093, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01394706

K. Bougis, R. Leite-rubim, N. Ziane, J. Peyencet, A. Bentaleb et al.,

. Rafael-leite-rubim, Highly Confined Stacks of Graphene Oxide Sheets in Water lipid bilayers with soft confinement and steric effects, European Physical Journal E: Soft Matter, vol.38, p.78, 2015.

R. Leite-rubim, B. B. Gerbelli, K. Bougis, C. L. Pinto-de-oliveira, L. Navailles et al., Water activity in lamellar stacks of lipid bilayers: "Hydration forces" revisited, European Physical Journal E: Soft Matter, vol.39, p.3, 2016.

K. Bougis, Fluctuations et interactions en situation de nano-confinement anisotrope, 2016.
URL : https://hal.archives-ouvertes.fr/tel-01467066

G. Massimo, W. M. Noro, and . Gelbart, Theory of lamellar-lamellar phase transitions in pure and mixed surfactant solutions, The Journal of Chemical Physics, vol.111, pp.3733-3743, 1999.

W. Barry and . Ninham, On progress in forces since the DLVO theory, Advances in Colloid and Surface Science, vol.83, pp.1-17, 1999.

F. Nallet, Surfactant films in lyotropic lamellar (and related) phases: Fluctuations and interactions, Advances in Colloid and Interface Science, vol.247, pp.363-373, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01590213

A. Caillé, Remarques sur la diffusion des rayons X dans les smectiques A. Comptes rendus de l'Académie des sciences Paris, série B, vol.274, pp.891-893, 1972.

L. Gunther, Y. Imry, and J. Lajzerowicz, X-ray scattering in smectic-A liquid crystals, Physical Review A, vol.22, pp.1733-1740, 1980.

P. De-gennes and J. Prost, The physics of liquid crystals Second edition, 1993.

F. Nallet, R. Laversanne, and D. Roux, Modelling x-ray or neutron scattering spectra of lyotropic lamellar phases: Interplay between form and structure factors, Journal de Physique, vol.II, issue.4, pp.487-502, 1993.
URL : https://hal.archives-ouvertes.fr/jpa-00247849

R. Zhang, R. M. Suter, and J. F. Nagle, Theory of the structure factor of lipid bilayers, Physical Review E, vol.50, pp.5047-5060, 1994.

M. Shibayama and T. Hashimoto, Small-angle x-ray scattering analyses of lamellar microdomains based on a model of one-dimensional paracrystal with uniaxial orientation, Macromolecules, vol.19, pp.740-749, 1986.

J. D. Hunter, Matplotlib: A 2D graphics environment, Computing In Science & Engineering, vol.9, issue.3, pp.90-95, 2007.