A. Baeyer, Ueber die verbindungen der aldehyde mit den phenolen, Berichte der deutschen chemischen Gesellschaft, vol.5, pp.280-282, 1872.

C. D. Gutsche, Calixarenes: An Introduction, 2008.

R. Perrin, R. Lamartine, and M. Perrin, The potential industrial applications of calixarenes, Pure & Appl. Chem, vol.65, pp.1549-1559, 1993.

K. Seiffarth, M. Schulz, G. Goermar, and J. Bachmann, Calix[n]arenes-new light stabilizers for polyolefins, vol.2, pp.73-80, 1989.

H. Taniguchi and E. Nomura, Catalytic activity of an octopus-type calixarene on the formation of ethers, Chem. Lett, vol.17, pp.1773-1776, 1988.

S. J. Harris, J. Guthrie, and M. G. Macmanus, Encapsulating compositions, Eur. Patent EP0262910A2, 1988.

S. J. Harris and M. G. Macmanus, Functionalised oxacalixarenes, their preparation and use in instant adhesive compositions, Eur. Patent EP0279521A1, 1988.

R. Ben-chaâbane, M. Gamoudi, G. Guillaud, C. Jouve, F. Gaillard et al., Elaboration and characterization of thin calixarene films, Synthetic Met, vol.66, pp.49-54, 1994.

M. Erdo?an, R. Çapan, and F. Davis, Swelling behaviour of calixarene film exposed to various organic vapours by surface plasmon resonance technique, Sensor Actuat. B-Chem, vol.145, pp.66-70, 2010.

T. Arimura, T. Nagasaki, S. Shinkai, and T. Matsuda, Host-guest properties of new watersoluble calixarenes derived from p-(chloromethyl) calixarenes, J. Org. Chem, vol.3, pp.3766-3768, 1989.

B. Kneafsey, J. M. Rooney, and S. J. Harris, Polymerization catalysts and polymerization process using such catalysts, US Patent US4912183A, 1990.

M. Atanassova and V. Kurteva, Synergism as a phenomenon in solvent extraction of 4f-elements with calixarenes, RSC Adv, vol.6, pp.11303-11324, 2016.

B. Mokhtari and K. Pourabdollah, Binding abilities and extractive applications of nanobaskets of calixarenes, Asian J. Chem, vol.23, pp.4717-4734, 2011.

B. Mokhtari, K. Pourabdollah, and N. Dallali, A review of calixarene applications in nuclear industries, J. Radioanal. Nucl. Chem, vol.287, pp.921-934, 2011.

R. Ludwig, Calixarenes in analytical and separation chemistry, Fresenius J. Anal. Chem, vol.367, pp.103-128, 2000.

M. Tabakci, B. Tabakci, and M. Yilmaz, Design and synthesis of new chiral calix[4]arenes as liquid phase extraction agents for ?-amino acid methylesters and chiral ?-amines, J. Incl. Phenom. Macrocycl. Chem, vol.53, pp.51-56, 2005.

V. Torgov, G. Kostin, V. Mashukov, T. Korda, A. Drapailo et al., Complexation and reduction of gold (III) during extraction from HCl by calix[4,6]arenes upper-Rim functionalized with alkyl-or tolylthiamethyl groups, Solv. Extract. Ion Exch, vol.23, pp.171-187, 2005.

G. A. Kostin, T. V. Us, T. M. Korda, V. G. Torgov, N. V. Kuratieva et al., Complexation and extraction of non-ferrous metals by calix[n]arene phosphine oxides, J. Incl. Phenom. Macrocycl. Chem, vol.68, pp.131-137, 2010.

R. Ludwig and N. T. Dzung, Solvent extraction of Tc(VII) by calixarenes bearing pyridino groups, J. Nucl. Radiochem. Sci, vol.6, pp.227-231, 2005.

F. Sansone, M. Fontanella, A. Casnati, R. Ungaro, V. Böhmer et al., CMPO-substituted calix[6]-and calix[8]arene extractants for the separation of An 3+ /Ln 3+ from radioactive waste, Tetrahedron, vol.62, pp.6749-6753, 2006.

A. Leydier, D. Lecerclé, S. Pellet-rostaing, A. Favre-reguillon, F. Taran et al., Sequestering agents for uranyl chelation: new calixarene ligands, Tetrahedron, vol.64, pp.11319-11324, 2008.

C. Park, S. Chun, and R. A. Bartsch, Effect of conformation on metal ion extraction by calix[4]arene dicarboxylic acids, J. Incl. Phenom. Macrocycl. Chem, vol.66, pp.95-105, 2010.

K. Ohto, H. Ishibashi, H. Kawakita, K. Inoue, and T. Oshima, Allosteric coextraction of sodium and metal ions with calix[4]arene derivatives 1: role of the first-extracted sodium ion as an allosteric trigger for self-coextraction of sodium ions with calix[4]arene tetracarboxylic acid, J. Incl. Phenom. Macrocycl. Chem, vol.65, pp.111-120, 2009.

J. Dozol, H. Rouquette, R. Ungaro, and A. Casnati, Calix[4]arènes-couronnes, leur procédé de préparation et leur utilisation pour l'extraction sélective du césium et des actinides, Fr. Patent FR2704225A1, 1993.

A. Casnati, A. Pochini, R. Ungaro, F. Ugozzoli, F. Arnaud et al., Synthesis, complexation, and membrane transport studies of 1,3-alternate calix[4]arene-crown-6 conformers: a new class of cesium selective ionophores, J. Am. Chem. Soc, vol.117, pp.2767-2777, 1995.

H. Luo, S. Dai, P. V. Bonnesen, A. C. Buchanan, I. et al.,

. Rogers, Extraction of cesium ions from aqueous solutions using calix[4]arene-bis(tertoctylbenzo-crown-6) in ionic liquids, Anal. Chem, vol.76, pp.3078-3083, 2004.

R. Pierce, T. Peters, T. Caldwell, M. Crowder, and S. Fink, Performance testing of the nextgeneration CSSX solvent with actual SRS tank waste, Sep. Sci. Technol, vol.47, pp.2088-2097, 2012.

J. Rais, S. Tachimori, E. Yoo, J. Alexová, and M. Bubeníková, Extraction of radioactive Cs and Sr from nitric acid solutions with 25,27-bis(1-octyloxy)calix[4]-26,28-crown-6 and dicyclohexyl-18-crown-6: effect of nature of the organic solvent, Sep. Sci. Technol, vol.50, pp.1202-1212, 2015.

B. A. Moyer, J. F. Birdwell, P. V. Bonnesen, S. H. Bruffey, L. H. Delmau et al.,

E. L. Stoner and N. J. Williams, Next generation solvent development for caustic-side solvent extraction of cesium, ORNL/TM-2014/22 report, 2014.

T. Sun, W. Duan, J. Wang, J. Wang, and J. Chen, Hydraulic and mass-transfer performance of a 20-mm-diameter annular centrifugal contactor for the solvent extraction of cesium by bis(2-propyloxy)calix[4]-crown-6 in n-octanol, Solv. Extr. Ion Exch, vol.33, pp.75-90, 2015.

J. Wang, J. Chen, and J. Shan, Verification of the calixcrown process for partitioning cesium from high-level liquid waste (HLLW), Solv. Extr. Ion Exch, vol.33, pp.249-263, 2015.

H. Zhou, M. A. Surowiec, R. A. Bartsch, T. J. Haverlock, B. A. Moyer et al., Highly lipophilic, mono-ionizable calix[4]arenebenzocrown-6 extractants for removal of radiocesium from nuclear wastes, Solv. Extr. Ion Exch, vol.31, pp.697-714, 2013.

P. K. Mohapatra, S. A. Ansari, A. Sarkar, A. Bhattacharyya, and V. K. Manchanda, Evaluation of calix-crown ionophores for selective separation of radio-cesium from acidic nuclear waste solution, Anal. Chim. Acta, vol.571, pp.308-314, 2006.

A. Leybros, A. Grandjean, N. Segond, M. Messalier, and O. Boutin, Cesium removal from contaminated sand by supercritical CO 2 extraction, J. Environ. Chem. Eng, vol.4, pp.1076-1080, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01300394

A. S. Kanekar, P. N. Pathak, and P. K. Mohapatra, Online recovery of radiocesium from soil, cellulose and plant samples by supercritical fluid extraction employing crown ethers and calix-crown derivatives as extractants, J. Radioanal. Nucl. Chem, vol.300, pp.1281-1289, 2014.

B. F. Graham, A. F. Lagalante, T. J. Bruno, J. M. Harrowfield, and R. D. Trengove, Solubility of p-t-butylcalixarenes in supercritical carbon dioxide: a comparison of static and dynamic measurement techniques, Fluid Phase Equilib, pp.829-838, 1998.

W. Cross, A. Akgerman, and C. Erkey, Determination of metal-chelate complex solubilities in supercritical carbon dioxide, Ind. Eng. Chem. Res, vol.35, pp.765-1770, 1996.

H. Byun, M. Choi, and J. Lim, High-pressure phase behavior and modeling of binary mixtures for alkyl acetate in supercritical carbon dioxide, J. Supercrit. Fluids, vol.37, pp.323-332, 2006.

A. Stassi and A. Schiraldi, Solubility of vegetable cuticular waxes in supercritical CO 2 : isothermal calorimetry investigations, Thermochim. Acta, vol.246, pp.417-425, 1994.

M. Riva and A. Schiraldi, Kinetic parameterization of transitions and reactions in food systems from isothermal and non-isothermal DSC traces, Thermochim. Acta, vol.220, pp.117-130, 1993.

M. Shamispur, Y. Yamini, and J. Hasan, Solubility of large crown ethers in supercritical carbon dioxide, Fluid Phase Equilib, vol.186, pp.39-46, 2001.

R. B. Gupta and J. J. Shim, Solubility in supercritical carbon dioxide, 2006.

T. Sarbu, T. J. Styranec, and E. J. Beckman, Non-fluorous polymers with very high solubility in supercritical CO 2 down to low pressures, Nature, vol.405, pp.165-168, 2000.

S. Kilic, S. Michalik, Y. Wang, J. K. Johnson, R. M. Enick et al., Effect of grafted Lewis base groups on the phase behavior of model poly(dimethyl siloxanes) in CO 2, Ind. Eng. Chem. Res, vol.42, pp.6415-6424, 2003.

J. , Solubility of solids and liquids in supercritical gases, J. Phys. Chem, vol.86, pp.3016-3021, 1982.

X. Zhang, B. Han, J. Zhang, H. Li, J. He et al., Direct measurements of the enthalpy of solution of solid solute in supercritical fluids: study on the CO 2 -naphthalene system, Chem. Eur. J, vol.7, pp.4237-4242, 2001.

N. R. Foster, G. S. Gurdial, J. S. Yun, K. K. Liong, K. D. Tilly et al., Significance of the crossover pressure in solid-supercritical fluid phase equilibria, Ind. Eng. Chem. Res, vol.30, pp.1955-1964, 1991.