M. S. Amara, E. Paineau, S. Rouziere, B. Guiose, M. E. Krapf et al., , p.168

A. Hybrid, Tunable-Diameter, Metal Oxide Nanotubes for Trapping of Organic Molecules

, Chemistry of Materials, vol.27, issue.5, pp.1488-1494, 2015.

E. Bahadori, V. Vaiano, S. Esposito, M. Armandi, D. Sannino et al., Photo-activated 173 degradation of tartrazine by H2O2 as catalyzed by both bare and Fe-doped methyl-imogolite 174 nanotubes, Catalysis Today, vol.304, pp.199-207, 2018.

I. Bottero, B. Bonelli, S. E. Ashbrook, P. A. Wright, W. Zhou et al., , vol.176

E. Garrone, Synthesis and characterization of hybrid organic/inorganic nanotubes of the imogolite 177 type and their behaviour towards methane adsorption, Physical Chemistry Chemical Physics, vol.178, issue.2, pp.744-750, 2011.

M. Boyer, E. Paineau, M. Bacia-verloop, and A. Thill, Aqueous dispersion state of amphiphilic hybrid 180 aluminosilicate nanotubes, Applied Clay Science, vol.96, pp.45-49, 2014.

P. D. Cradwick, K. Wada, J. D. Russell, N. Yoshinaga, C. R. Masson et al., Imogolite, 182 a hydrated aluminum silicate of tubular structure, Nature-Physical Science, vol.240, issue.104, pp.187-183, 1972.

L. C. Dias, R. Custodio, and F. B. Pessine, Theoretical studies of Nile Red by ab initio and 185 semiempirical methods, Chemical Physics Letters, vol.302, issue.5-6, pp.505-510, 1999.

A. K. Dutta, K. Kamada, and K. Ohta, Spectroscopic studies of nile red in organic solvents and 187 polymers, Journal of Photochemistry and Photobiology a-Chemistry, vol.93, issue.1, pp.57-64, 1996.

J. D. Elliott, E. Poli, I. Scivetti, L. E. Ratcliff, L. Andrinopoulos et al., , p.189

A. A. Mostofi, C. Skylaris, P. D. Haynes, and G. Teobaldi, Chemically Selective Alternatives to 190

, Photoferroelectrics for Polarization-Enhanced Photocatalysis: The Untapped Potential of Hybrid 191

, Inorganic Nanotubes. Advanced Science, vol.2017, issue.2, p.1600153

P. Hazra, D. Chakrabarty, A. Chakraborty, and N. Sarkar, Intramolecular charge transfer and solvation 193 dynamics of Nile Red in the nanocavity of cyclodextrins, Chemical Physics Letters, vol.388, issue.1-194 3, pp.150-157, 2004.

C. M. Hess, E. A. Riley, J. Palos-chavez, and P. J. Reid, Measuring the Spatial Distribution of 196

, Dielectric Constants in Polymers through Quasi-Single Molecule Microscopy, Journal of Physical, vol.197

, Chemistry B, issue.23, pp.7106-7112, 2013.

J. Jose and K. Burgess, Benzophenoxazine-based fluorescent dyes for labeling biomolecules
DOI : 10.1002/chin.200704258

, Tetrahedron, vol.62, issue.48, pp.11021-11037, 2006.

P. J. Larkin, R. Ir, and . Spectroscopy, Principles and Spectral Interpretation, 2011.

S. U. Lee, Y. C. Choi, S. G. Youm, and D. Sohn, Origin of the Strain Energy Minimum in Imogolite, p.203

. Nanotubes, Journal of Physical Chemistry C, issue.13, pp.5226-5231, 2011.

Y. Liao, P. Picot, J. Brubach, P. Roy, S. Le-caër et al., Self-supporting thin films of 205 imogolite and imogolite-like nanotubes for infrared spectroscopy, Applied Clay Science, 2017.

P. Lindern, Scattering experiments: Experimental aspects, initial data reduction and absolute 207 calibration, Neutrons, X-rays and Light: Scattering Methods Applied to Soft Condensed Matter, 208, pp.23-48, 2002.

C. Martin, B. Cohen, M. T. Navarro, A. Corma, and A. Douhal, Unraveling the ultrafast behavior of 210 nile red interacting with aluminum and titanium co-doped MCM41 materials, Physical Chemistry, p.211

, Chemical Physics, vol.18, issue.3, pp.2152-2163, 2016.

M. Mcbride, V. C. Farmer, J. D. Russel, J. M. Tait, and B. A. Goodman, Iron substitution in 213 aluminosilicate sols synthesized at low pH. Clay, vol.19, pp.1-8, 1984.

P. Picot, O. Tache, F. Malloggi, T. Coradin, and A. Thill, Behaviour of hybrid inside/out Janus 215 nanotubes at an oil/water interface. A route to self-assembled nanofluidics?, Faraday Discussions, vol.216, pp.391-406, 2016.

P. Picot, Y. Liao, E. Barruet, F. Gobeaux, T. Coradin et al., Exploring hybrid imogolite 218 nanotubes formation via Si/Al stoichiometry control, vol.34, pp.13225-13234, 2018.

E. Shafia, S. Esposito, M. Manzoli, M. Chiesa, P. Tiberto et al., , vol.220

F. S. Freyria, E. Garrone, and B. Bonelli, Al/Fe isomorphic substitution versus Fe2O3 clusters 221 formation in Fe-doped aluminosilicate nanotubes (imogolite), J. of Nanopart. Res, vol.17, issue.8, p.336, 2015.

R. M. Silverstein, F. X. Webster, D. J. Kiemle, D. Brennan, and J. Yee, Infrared Spectroscopy, Spectrometric 223 Identification of Organic Compounds

S. Sandra and R. , , pp.72-126, 2005.

D. Singappuli-arachchige, J. S. Manzano, L. M. Sherman, and I. I. Slowing, Polarity Control at 226 Interfaces: Quantifying Pseudo-solvent Effects in Nano-confined Systems, Chemphyschem, vol.227, issue.19, pp.2982-2986, 2016.

N. Yoshinaga and S. Aomine, Imogolite In Some Ando Soils. Soil Science and Plant Nutritution, vol.8, pp.22-29, 1962.

C. Zanzottera, A. Vicente, E. Celasco, C. Fernandez, E. Garrone et al., , p.231

, Properties of Imogolite Nanotubes Functionalized on Both External and Internal Surfaces, pp.7499-7506, 2012.