E. L. Gershey, R. C. Klein, E. Party, and A. Wilkerson, Low-Level Radioactive Waste, 1990.

B. Salbu, Fractionation of radionuclide species in the environment, J. Environ. Radioact, vol.100, pp.283-289, 2009.

B. Salbu, O. C. Lind, and L. Skipperud, Radionuclide speciation and its relevance in environmental impact assessments, J. Environ. Radioact, vol.74, pp.233-242, 2004.

R. Periáñez, R. Bezhenar, I. Brovchenko, C. Duffa, M. Iosjpe et al., Modelling of marine radionuclide dispersion in IAEA MODARIA program: Lessons learnt from the Baltic Sea and Fukushima scenarios, Sci. Total Environ, pp.594-602, 2016.

B. L. Rosenberg, J. E. Ball, K. Shozugawa, G. Korschinek, M. Hori et al., Radionuclide pollution inside the Fukushima Daiichi exclusion zone, part 1: Depth profiles of radiocesium and strontium-90 in soil, Appl. Geochem, vol.85, pp.201-208, 2017.

T. T. Dang, C. Li, and K. Choo, Comparison of low-pressure reverse osmosis filtration and polyelectrolyte-enhanced ultrafiltration for the removal of Co and Sr from nuclear plant wastewater, Sep. Purif. Technol, vol.157, pp.209-214, 2016.

J. Bors, S. Dultz, and B. Riebe, Organophilic bentonites as adsorbents for radionuclides, Appl. Clay Sci, vol.16, pp.1-13, 2000.

X. Fang, F. Fang, C. Lu, and L. Zheng, Removal of Cs + , Sr 2+ , and Co 2+ ions from the mixture of organics and suspended solids aqueous solutions by zeolites, Nucl. Eng. Technol, vol.49, pp.556-561, 2017.

R. O. Rahman, H. A. Ibrahium, and Y. Hung, Liquid radioactive wastes treatment: A review, vol.3, pp.551-565, 2011.

L. Zhang, J. Wei, X. Zhao, F. Li, F. Jiang et al., Removal of strontium(II) and cobalt(II) from acidic solution by manganese antimonate, Chem. Eng. J, vol.302, pp.733-743, 2016.

M. Claverie, J. Garcia, T. Prevost, J. Brendlé, and L. Limousy, Inorganic and hybrid (organic-inorganic) lamellar materials for heavy metals and radionuclides capture in energy wastes management-A review, Materials, vol.12, p.1399, 2019.

T. Thiebault, J. Brendlé, G. Augé, and L. Limousy, Zwitterionic-surfactant modified LAPONITE ® s for removal of ions (Cs + , Sr 2+ and Co 2+ ) from aqueous solutions as a sustainable recovery method for radionuclides from aqueous wastes, Green Chem, vol.21, pp.5118-5127, 2019.

F. Moyo, R. Tandlich, B. S. Wilhelmi, and S. Balaz, Sorption of hydrophobic organic compounds on natural sorbents and organoclays from aqueous and non-aqueous solutions: A mini-review, Int. J. Environ. Res. Public Health, vol.11, pp.5020-5048, 2014.

L. A. Rodrigues, S. De, A. Figueiras, F. Veiga, R. M. De-freitas et al., The systems containing clays and clay minerals from modified drug release: A review, Colloids Surf. B Biointerfaces, vol.103, pp.642-651, 2013.

T. Thiebault, R. Guégan, and M. Boussafir, Adsorption mechanisms of emerging micro-pollutants with a clay mineral: Case of tramadol and doxepine pharmaceutical products, J. Colloid Interface Sci, vol.453, pp.1-8, 2015.
URL : https://hal.archives-ouvertes.fr/insu-01163181

M. K. Uddin, A review on the adsorption of heavy metals by clay minerals, with special focus on the past decade, Chem. Eng. J, vol.308, pp.438-462, 2017.

L. Ma, Q. Chen, J. Zhu, Y. Xi, H. He et al., Adsorption of phenol and Cu(II) onto cationic and zwitterionic surfactant modified montmorillonite in single and binary systems, Chem. Eng. J, vol.283, pp.880-888, 2016.

T. Thiebault, Raw and modified clays and clay minerals for the removal of pharmaceutical products from aqueous solutions: State of the art and future perspectives, Crit. Rev. Environ. Sci. Technol, 2019.
URL : https://hal.archives-ouvertes.fr/insu-02284028

T. Thiebault, M. Boussafir, L. Le-forestier, C. Le-milbeau, L. Monnin et al., Competitive adsorption of a pool of pharmaceuticals onto a raw clay mineral, RSC Adv, vol.6, pp.65257-65265, 2016.
URL : https://hal.archives-ouvertes.fr/insu-02099494

T. De-oliveira, R. Guégan, T. Thiebault, C. L. Milbeau, F. Muller et al., Adsorption of diclofenac onto organoclays: Effects of surfactant and environmental (pH and temperature) conditions, J. Hazard. Mater, vol.323, pp.558-566, 2017.
URL : https://hal.archives-ouvertes.fr/insu-01315385

L. B. De-paiva, A. R. Morales, and F. R. Valenzuela-díaz, Organoclays: Properties, preparation and applications, Appl. Clay Sci, vol.42, pp.8-24, 2008.

R. Guégan, Organoclay applications and limits in the environment, Comptes Rendus Chimie, vol.22, pp.132-141, 2019.

M. Jaber, J. Miehé-brendlé, L. Michelin, and L. Delmotte, Heavy metal retention by organoclays: Synthesis, applications, and retention mechanism, Chem. Mater, vol.17, pp.5275-5281, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00293123

Y. Park, G. A. Ayoko, E. Horváth, R. Kurdi, J. Kristof et al., Structural characterisation and environmental application of organoclays for the removal of phenolic compounds, J. Colloid Interface Sci, vol.393, pp.319-334, 2013.

S. Xu, G. Sheng, and S. A. Boyd, Use of organoclays in pollution abatement, Adv. Agron, vol.59, pp.25-62, 1997.

A. C. Hari, R. A. Paruchuri, D. A. Sabatini, and T. C. Kibbey, Effects of pH and cationic and nonionic surfactants on the adsorption of pharmaceuticals to a natural aquifer material, Environ. Sci. Technol, vol.39, pp.2592-2598, 2005.

G. Lagaly, Interaction of alkylamines with different types of layered compounds. Solid State Ion, vol.22, pp.43-51, 1986.

Y. Park, G. A. Ayoko, and R. L. Frost, Application of organoclays for the adsorption of recalcitrant organic molecules from aqueous media, J. Colloid Interface Sci, vol.354, pp.292-305, 2011.

L. M. Daniel, R. L. Frost, and H. Y. Zhu, Edge-modification of laponite with dimethyl-octylmethoxysilane, J. Colloid Interface Sci, vol.321, pp.302-309, 2008.

H. He, Q. Tao, J. Zhu, P. Yuan, W. Shen et al., Silylation of clay mineral surfaces, Appl. Clay Sci, vol.71, pp.15-20, 2013.

M. Park, I. Shim, E. Jung, and J. Choy, Modification of external surface of laponite by silane grafting, J. Phys. Chem. Solids, vol.65, pp.499-501, 2004.

H. He, Q. Zhou, W. N. Martens, T. J. Kloprogge, P. Yuan et al., Microstructure of HDTMA + -modified montmorillonite and its influence on sorption characteristics, Clays Clay Miner, vol.54, pp.689-696, 2006.

Z. Z. Zhang, D. L. Sparks, and N. C. Scrivner, Sorption and desorption of quaternary amine cations on clays, Environ. Sci. Technol, vol.27, pp.1625-1631, 1993.

A. De-mello-ferreira-guimarães, V. S. Ciminelli, and W. L. Vasconcelos, Smectite organofunctionalized with thiol groups for adsorption of heavy metal ions, Appl. Clay Sci, vol.42, pp.410-414, 2009.

D. L. Guerra, S. P. Oliveira, R. A. Silva, E. M. Silva, and A. C. Batista, Dielectric properties of organofunctionalized kaolinite clay and application in adsorption mercury cation, Ceram. Int, vol.38, pp.1687-1696, 2012.

H. He, L. Ma, J. Zhu, R. L. Frost, B. K. Theng et al., Synthesis of organoclays: A critical review and some unresolved issues, Appl. Clay Sci, vol.100, pp.22-28, 2014.

M. E. Parolo, G. R. Pettinari, T. B. Musso, M. P. Sánchez-izquierdo, and L. G. Fernández, Characterization of organo-modified bentonite sorbents: The effect of modification conditions on adsorption performance, Appl. Surf. Sci, vol.320, pp.356-363, 2014.

C. Liu, S. Liu, P. Wu, Y. Dai, L. Tran et al., Enhancing the adsorption behavior and mechanism of Sr(II) by functionalized montmorillonite with different 3-aminopropyltriethoxysilane (APTES) ratios, RSC Adv, vol.6, pp.83288-83295, 2016.

V. V. Lima, F. B. Dalla-nora, E. C. Peres, G. S. Reis, É. C. Lima et al., Synthesis and characterization of biopolymers functionalized with APTES (3-aminopropyltriethoxysilane) for the adsorption of sunset yellow dye, J. Environ. Chem. Eng, vol.7, p.103410, 2019.

T. Thiebault, J. Brendlé, G. Augé, and L. Limousy, Cleaner synthesis of silylated clay minerals for the durable recovery of ions (Co 2+ and Sr 2+ ) from aqueous solutions, Ind. Eng. Chem. Res, 2020.
URL : https://hal.archives-ouvertes.fr/insu-02441684

D. Massiot, F. Fayon, M. Capron, I. King, S. L. Calvé et al., Modelling one-and two-dimensional solid-state NMR spectra, Magn. Reson. Chem, vol.40, pp.70-76, 2002.

H. Pálková, J. Madejová, M. Zimowska, and E. M. Serwicka, Laponite-derived porous clay heterostructures: II. FTIR study of the structure evolution, Microporous Mesoporous Mater, vol.127, pp.237-244, 2010.

L. R. Avila, E. H. De-faria, K. J. Ciuffi, E. J. Nassar, P. S. Calefi et al., New synthesis strategies for effective functionalization of kaolinite and saponite with silylating agents, J. Colloid Interface Sci, vol.341, pp.186-193, 2010.

N. Herrera, N. Letoffe, J. Reymond, J. Bourgeat-lami, and E. , Silylation of laponite clay particles with monofunctional and trifunctional vinyl alkoxysilanes, J. Mater. Chem, vol.15, pp.863-871, 2005.
URL : https://hal.archives-ouvertes.fr/hal-01873161

Q. Tao, Y. Fang, T. Li, D. Zhang, M. Chen et al., Silylation of saponite with 3-aminopropyltriethoxysilane, Appl. Clay Sci, pp.133-139, 2016.

W. Xie, Z. Gao, K. Liu, W. Pan, R. Vaia et al., Thermal characterization of organically modified montmorillonite, Thermochim. Acta, pp.339-350, 2001.

S. Yang, P. Yuan, H. He, Z. Qin, Q. Zhou et al., Effect of reaction temperature on grafting of ?aminopropyl triethoxysilane (APTES) onto kaolinite, Appl. Clay Sci, vol.2012, pp.62-63

M. Fenero, J. Palenzuela, I. Azpitarte, M. Knez, J. Rodríguez et al., Laponite-based surfaces with holistic self-cleaning functionality by combining antistatics and omniphobicity, ACS Appl. Mater. Interfaces, vol.9, pp.39078-39085, 2017.

P. A. Wheeler, J. Wang, J. Baker, and L. J. Mathias, Synthesis and characterization of covalently functionalized laponite clay, Chem. Mater, vol.17, pp.3012-3018, 2005.

J. Brendlé, Organic-inorganic hybrids having a talc-like structure as suitable hosts to guest a wide range of species, Dalton Trans, vol.47, pp.2925-2932, 2018.

S. Borsacchi, M. Geppi, L. Ricci, G. Ruggeri, and C. A. Veracini, Interactions at the surface of organophilicmodified laponites: A multinuclear solid-state NMR study, Langmuir, vol.23, pp.3953-3960, 2007.

N. Herrera, N. Letoffe, J. Putaux, J. David, L. Bourgeat-lami et al., Aqueous dispersions of silane-functionalized laponite clay platelets. A first step toward the elaboration of water-based polymer/clay nanocomposites, Langmuir, vol.20, pp.1564-1571, 2004.

M. D. Alba, A. I. Becerro, M. A. Castro, and A. C. Perdigón, High-resolution 1 H MAS NMR spectra of 2:1 phyllosilicates, Chem. Commun, pp.37-38, 2000.

A. Kaya and Y. Yukselen, Zeta potential of clay minerals and quartz contaminated by heavy metals, Can. Geotech. J, vol.42, pp.1280-1289, 2005.

E. Tombácz and M. Szekeres, Colloidal behavior of aqueous montmorillonite suspensions: The specific role of pH in the presence of indifferent electrolytes, Appl. Clay Sci, vol.27, pp.75-94, 2004.

S. Jatav and Y. M. Joshi, Chemical stability of laponite in aqueous media, Appl. Clay Sci, vol.2014, pp.72-77

P. Mongondry, T. Nicolai, and J. Tassin, Influence of pyrophosphate or polyethylene oxide on the aggregation and gelation of aqueous laponite dispersions, J. Colloid Interface Sci, vol.275, pp.191-196, 2004.

P. Janik, B. Zawisza, E. Talik, and R. Sitko, Selective adsorption and determination of hexavalent chromium ions using graphene oxide modified with amino silanes, Microchim. Acta, p.117, 2018.

B. Ma, S. Oh, W. S. Shin, and S. Choi, Removal of Co 2+ , Sr 2+ and Cs + from aqueous solution by phosphatemodified montmorillonite (PMM). Desalination, vol.276, pp.336-346, 2011.

V. C. Srivastava, I. D. Mall, and I. M. Mishra, Removal of cadmium(II) and zinc(II) metal ions from binary aqueous solution by rice husk ash, Colloids Surf. A Physicochem. Eng. Asp, vol.312, pp.172-184, 2008.

G. Augé, J. Brendlé, L. Limousy, and T. Thiebault, Matériau Hybride Organique-Inorganique apte à Adsorber des Cations Métalliques. Patent Number FR3078268, 2019.