Z. H. Aitken, S. Luo, S. N. Reynolds, C. Thaulow, and J. R. Greer, Microstructure provides insights into evolutionary design and resilience of Coscinodiscus sp frustule, Proceedings of the National Academy of Sciences of the United States of America, vol.113, issue.8, pp.2017-2022, 2016.

J. Aizenberg, V. C. Sundar, A. D. Yablon, J. C. Weaver, C. et al., Biological glass fibers: correlation between optical and structural properties, Proc. Natl. Acad. Sci. USA, vol.101, issue.10, pp.3358-3363, 2004.

J. Aizenberg, J. C. Weaver, M. S. Thanawala, V. C. Sundar, D. E. Morse et al., Skeleton of Euplectella sp.: structural hierarchy from the nanoscale to the macroscale, Science, vol.309, issue.5732, pp.275-278, 2005.

E. V. Armbrust, The life of diatoms in the world's oceans, Nature, vol.459, issue.7244, pp.185-192, 2009.

M. E. Birkbak, M. Guizar-sicairos, M. Holler, and H. Birkedal, Internal structure of sponge glass fiber revealed by ptychographic nanotomography, Journal of Structural Biology, vol.194, issue.1, pp.124-128, 2016.

A. Bismuto, A. Setaro, P. Maddalena, L. De-stefano, D. Stefano et al., Marine diatoms as optical chemical sensors: A time-resolved study, Sensors and Actuators B-Chemical, vol.130, issue.1, pp.396-399, 2008.

E. Burns and M. Ilan, Comparison of anti-predatory defenses of Red Sea and Caribbean sponges. II. Physical defense, Marine Ecology Progress Series, vol.252, pp.115-123, 2003.

E. Camargo, P. C. Jaime, C. F. Lin, M. S. Lin, T. Y. Yu et al., Chemical and optical characterization of Psammodictyon panduriforme (Gregory) Mann comb. nov (Bacillariophyta) frustules, Optical Materials Express, vol.6, issue.5, pp.1436-1443, 2016.

R. Cattaneo-vietti, G. Bavestrello, C. Cerrano, M. Sara, U. Benatti et al., Optical fibres in an Antarctic sponge, Nature, vol.383, issue.6599, pp.397-398, 1996.

S. Chandrasekaran, T. Nann, and N. H. Voelcker, Nanostructured silicon photoelectrodes for solar water electrolysis, Nano Energy, vol.17, pp.308-322, 2015.

S. Chang, Q. L. Feng, S. Clausen, and L. Zhang, Sponge spicules from the lower Cambrian in the Yanjiahe Formation, South China: The earliest biomineralizing sponge record, Palaeogeography Palaeoclimatology Palaeoecology, vol.474, pp.36-44, 2017.

X. F. Chen, C. Wang, E. Baker, and C. Sun, Numerical and experimental investigation of light trapping effect of nanostructured diatom frustules, Scientific Reports, vol.5, 2015.

J. Cooke and M. R. Leishman, Consistent alleviation of abiotic stress with silicon addition: a meta-analysis, Functional Ecology, vol.30, issue.8, pp.1340-1357, 2016.

A. G. Cullis, L. T. Canham, and P. D. Calcott, The structural and luminescence properties of porous silicon, Journal of Applied Physics, vol.82, issue.3, pp.909-965, 1997.

L. De-stefano, I. Rea, I. Rendina, M. De-stefano, and L. Moretti, Lensless light focusing with the centric marine diatom Coscinodiscus walesii, Optics Express, vol.15, issue.26, pp.18082-18088, 2007.

L. De-stefano, I. Rendina, M. De-stefano, A. Bismuto, M. et al., Marine diatoms as optical chemical sensors, Applied Physics Letters, vol.87, issue.23, 2005.

L. De-stefano, L. Rotiroti, M. De-stefano, A. Lamberti, S. Lettieri et al., Marine diatoms as optical biosensors, Biosensors & Bioelectronics, vol.24, issue.6, pp.1580-1584, 2009.

E. De-tommasi, I. Rea, V. Mocella, L. Moretti, M. De-stefano et al., , 2010.

, Multi-wavelength study of light transmitted through a single marine centric diatom, Optics Express, vol.18, issue.12, pp.12203-12212

H. Ehrlich, K. D. Demadis, O. S. Pokrovsky, and P. G. Koutsoukos, Modern Views on Desilicification: Biosilica and Abiotic Silica Dissolution in Natural and Artificial Environments, Chemical Reviews, vol.110, issue.8, pp.4656-4689, 2010.

H. Ehrlich, R. Deutzmann, E. Brunner, E. Cappellini, H. Koon et al., Mineralization of the metre-long biosilica structures of glass sponges is templated on hydroxylated collagen, Nature Chemistry, vol.2, issue.12, pp.1084-1088, 2010.

H. Ehrlich, M. Maldonado, A. R. Parker, Y. N. Kulchin, J. Schilling et al., Supercontinuum Generation in Naturally Occurring Glass Sponges Spicules, Advanced Optical Materials, vol.4, issue.10, pp.1608-1613, 2016.

H. Ehrlich and A. Witkowski, Biomineralization in Diatoms: The Organic Templates, Evolution of Lightweight Structures: Analyses and Technical Applications, vol.6, pp.39-58, 2015.

M. Ellegaard, T. Lenau, N. Lundholm, C. Maibohm, S. M. Friis et al., The fascinating diatom frustule-can it play a role for attenuation of UV radiation, Journal of Applied Phycology, vol.28, issue.6, pp.3295-3306, 2016.

M. A. Ferrara, P. Dardano, L. De-stefano, I. Rea, G. Coppola et al., Optical Properties of Diatom Nanostructured Biosilica in Arachnoidiscus sp: Micro-Optics from Mother Nature, Plos One, vol.9, issue.7, 2014.

W. R. Yang, P. J. Lopez, and G. Rosengarten, Diatoms: Self assembled silica nanostructures, and templates for bio/chemical sensors and biomimetic membranes, Analyst, vol.136, issue.1, pp.42-53, 2011.

S. Yoneda, F. Ito, S. Yamanaka, and H. Usami, Optical properties of nanoporous silica frustules of a diatom determined using a 10 mu m microfiber probe, Japanese Journal of Applied Physics, vol.55, issue.7, 2016.

H. Yoon and M. S. Goorsky, A systematic study of the structural and luminescence properties of p-type porous silicon. Defect and Impurity Engineered Semiconductors and Devices, vol.378, pp.893-898, 1995.

S. Zhang, H. Liu, Y. Ke, L. , and B. , Effect of the Silica Content of Diatoms on Protozoan Grazing, Front. Mar. Sci, vol.4, pp.1-10, 2017.

, Références hors publication

L. Stefano, I. Rea, I. Rendina, M. Stefano, and L. Moretti, Optics Express, vol.15, p.18082, 2007.

E. De-tommasi, I. Rea, V. Mocella, L. Moretti, M. Stefano et al., Optics Express, vol.18, p.12203, 2010.

J. Romann, J. Valmalette, A. Røyset, and M. Einarsrud, Optics Letters, vol.40, p.740, 2015.

X. Chen, C. Wang, E. Baker, and C. , Sun, Scientific Reports, vol.5, p.11977, 2015.

M. A. Ferrara, P. Dardano, L. Stefano, I. Rea, G. Coppola et al., PLoS ONE, vol.9, p.103750, 2014.

B. Bhushan, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol.367, pp.1445-1486, 2009.

P. Fratzl and R. Weinkamer, Progress in Materials Science, vol.52, pp.1263-1334, 2007.

Q. Chen and N. M. Pugno, Journal of the Mechanical Behavior of Biomedical Materials, vol.19

R. Mcphedran, N. Nicorovici, D. Mckenzie, G. Rouse, L. Botten et al.,

M. Parker, V. Wohlgennant, and . Vardeny, Physica B: Condensed Matter, vol.338, pp.182-185, 2003.

M. C. Large, D. R. Mckenzie, A. R. Parker, B. C. Steel, K. Ho et al.,

R. C. Nicorovici and . Mcphedran, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol.457, pp.511-518, 2001.

P. Vukusic and J. R. Sambles, Nature, vol.424, pp.852-855, 2003.

S. Beer, C. Wentzel, R. Petie, and A. Garm, Vision Research, vol.127, pp.28-34, 2016.

A. Garm and D. Nilsson, Proceedings of the Royal Society B: Biological Sciences, vol.281, pp.20133011-20133011, 2014.

J. Lu, D. Cai, Y. Liao, C. Chen, C. Lin et al., IET Optoelectronics, vol.11, pp.242-247, 2017.

S. Zobl, W. Salvenmoser, T. Schwerte, I. C. Gebeshuber, and M. Schreiner, Bioinspiration & Biomimetics, vol.11, p.39601, 2016.

K. R. Smith, V. Cadena, J. A. Endler, M. R. Kearney, W. P. Porter et al., The American Naturalist, vol.188, pp.668-678, 2016.

T. Fuhrmann, S. Landwehr, M. E. Rharbi-kucki, and M. Sumper, Applied Physics B: Lasers and Optics, vol.78, pp.257-260, 2004.

. Vi and . Références,

D. G. Mann and S. J. Droop, Biogeography of Freshwater Algae, pp.19-32, 1996.

D. G. Mann and P. Vanormelingen, Journal of Eukaryotic Microbiology, vol.60, pp.414-420, 2013.

A. Godhe and T. Rynearson, Philosophical Transactions of the Royal Society B: Biological Sciences, vol.372, p.20160399, 2017.

E. De-tommasi, J. Gielis, and A. Rogato, Marine Genomics, vol.35, pp.1-18, 2017.

C. A. Durkin, J. A. Koester, S. J. Bender, and E. V. Armbrust, Journal of Phycology, vol.52, pp.716-731, 2016.

A. O. Marron, S. Ratcliffe, G. L. Wheeler, R. E. Goldstein, N. King et al.,

D. J. Vargas and . Richter, Molecular Biology and Evolution, vol.33, pp.3226-3248, 2016.

M. Hildebrand and S. J. Lerch, Seminars in Cell & Developmental Biology, vol.46, 2015.

N. Kröger and N. Poulsen, Annual Review of Genetics, vol.42, pp.83-107, 2008.

A. Schwartz, Zeitschrift Für Allgemeine Mikrobiologie, vol.7, pp.168-169, 2007.

V. J. Chapman and D. J. Chapman, The Algae, 1973.

C. B. Field, Science, vol.281, pp.237-240, 1998.

J. Stevenson, Journal of Phycology, vol.50, pp.437-461, 2014.

E. V. Armbrust, Nature, vol.459, pp.185-192, 2009.

W. Fu, K. Wichuk, and S. Brynjólfsson, New Biotechnology, vol.32, pp.547-551, 2015.

T. Fuhrmann, S. Landwehr, M. E. Rharbi-kucki, and M. Sumper, Applied Physics B: Lasers and Optics, vol.78, pp.257-260, 2004.

E. De-tommasi, I. Rea, V. Mocella, L. Moretti, M. Stefano et al., Optics Express, vol.18, p.12203, 2010.

L. Stefano, I. Rea, I. Rendina, M. Stefano, and L. Moretti, Optics Express, vol.15, p.18082, 2007.

S. G. Johnson, S. Fan, P. R. Villeneuve, J. D. Joannopoulos, and L. A. Kolodziejski, Physical Review B, vol.60, pp.5751-5758, 1999.

Z. H. Aitken, S. Luo, S. N. Reynolds, C. Thaulow, and J. R. Greer, Proceedings of the National Academy of Sciences, vol.113, pp.2017-2022, 2016.

P. A. Sims, D. G. Mann, and L. K. Medlin, Phycologia, vol.45, pp.361-402, 2006.

M. Sumper, Science, vol.295, pp.2430-2433, 2002.

P. Qu, F. Fu, and D. A. Hutchins, Limnology and Oceanography, vol.63, pp.1407-1424, 2018.

Y. Su, N. Lundholm, and M. Ellegaard, Journal of Applied Phycology, vol.29, pp.1775-1779, 2017.

J. Romann, M. S. Chauton, S. M. Hanetho, M. Vebner, M. Heldal et al.,

G. Vadstein, M. Tranell, and . Einarsrud, Journal of Porous Materials, vol.23, pp.905-910, 2016.

J. Romann, J. Valmalette, A. Røyset, and M. Einarsrud, Optics Letters, vol.40, p.740, 2015.

X. Chen, C. Wang, E. Baker, and C. , Sun, Scientific Reports, vol.5, p.11977, 2015.

E. A. Sar, I. Sunesen, and R. Jahn, Phycologia, vol.49, pp.514-524, 2010.

V. Références,

J. D. Joannopoulos, S. G. Johnson, J. N. Winn, and R. D. Meade, Photonic Crystals: Molding the Flow of Light, 2008.

F. R. Lord-rayleigh, Proceedings of The Royal Society, vol.103, pp.233-239, 1923.

M. Kurachi, Y. Takaku, Y. Komiya, and T. Hariyama, Naturwissenschaften, vol.89, 2002.

D. M. Fitzstephens and T. Getty, Animal Behaviour, vol.60, 2000.

M. C. Large, D. R. Mckenzie, A. R. Parker, B. C. Steel, K. Ho et al.,

R. C. Nicorovici and . Mcphedran, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol.457, pp.511-518, 2001.

R. Mcphedran, N. Nicorovici, D. Mckenzie, L. Botten, A. Parker et al.,

, Chem, vol.54, pp.241-244, 2001.

P. Vukusic, J. R. Sambles, C. R. Lawrence, and R. J. Wootton, Proceedings of the Royal Society of London B: Biological Sciences, vol.266, pp.1403-1411, 1999.

S. Berthier, E. Charron, and A. D. Silva, Optics Communications, vol.228, pp.349-356, 2003.

S. Berthier, E. Charron, and J. Boulenguez, Insect Science, vol.13, pp.145-158, 2006.

E. D. Finlayson, L. T. Mcdonald, and P. Vukusic, Journal of The Royal Society Interface, vol.14, p.20170129, 2017.

S. Berthier, Photonique Des Morphos, 2010.

J. Zi, X. Yu, Y. Li, X. Hu, C. Xu et al., Proceedings of the National Academy of Sciences, vol.100, pp.12576-12578, 2003.

R. Mcphedran, N. Nicorovici, D. Mckenzie, G. Rouse, L. Botten et al.,

M. Parker, V. Wohlgennant, and . Vardeny, Physica B: Condensed Matter, vol.338, pp.182-185, 2003.

K. M. Ho, C. T. Chan, and C. M. Soukoulis, Physical Review Letters, vol.65, pp.3152-3155, 1990.

E. Yablonovitch, T. J. Gmitter, R. D. Meade, A. M. Rappe, K. D. Brommer et al.,

J. , Physical Review Letters, vol.67, pp.3380-3383, 1991.

C. I. Aguirre, E. Reguera, and A. Stein, Advanced Functional Materials, vol.20, pp.2565-2578, 2010.

J. Wijnhoven and W. Vos, Science, vol.281, pp.802-804, 1998.

A. Blanco, E. Chomski, S. Grabtchak, M. Ibisate, S. John et al.,

H. Meseguer, J. Miguez, G. Mondia, O. Ozin, H. Toader et al., Nature, vol.405, pp.437-440, 2000.

J. D. Pye, Biological Journal of the Linnean Society, vol.100, pp.585-596, 2010.

Y. Nishijima, K. Ueno, S. Juodkazis, V. Mizeikis, H. Misawa et al.,

. Maeda, Optics Express, vol.15, p.12979, 2007.

G. I. Waterhouse and M. R. Waterland, Polyhedron, vol.26, pp.356-368, 2007.

M. A. Ferrara, P. Dardano, L. Stefano, I. Rea, G. Coppola et al., PLoS ONE, vol.9, p.103750, 2014.

E. De-tommasi, I. Rea, V. Mocella, L. Moretti, M. Stefano et al., Optics Express, vol.18, p.12203, 2010.

L. Stefano, I. Rea, I. Rendina, M. Stefano, and L. Moretti, Optics Express, vol.15, p.18082, 2007.

T. Fuhrmann, S. Landwehr, M. E. Rharbi-kucki, and M. Sumper, Applied Physics B: Lasers and Optics, vol.78, pp.257-260, 2004.

J. Romann, J. Valmalette, M. S. Chauton, G. Tranell, M. Einarsrud et al., Scientific Reports, vol.5, p.17403, 2015.

S. Yoneda, F. Ito, S. Yamanaka, and H. Usami, Japanese Journal of Applied Physics, vol.55, p.72001, 2016.

J. Romann, J. Valmalette, A. Røyset, and M. Einarsrud, Optics Letters, vol.40, p.740, 2015.

L. Stefano, L. Rotiroti, M. Stefano, A. Lamberti, S. Lettieri et al.,

M. , Biosensors and Bioelectronics, vol.24, pp.1580-1584, 2009.

. Vi and . Références,

S. Yoneda, F. Ito, S. Yamanaka, and H. Usami, Japanese Journal of Applied Physics, vol.55, p.72001, 2016.

K. Kieu, C. Li, Y. Fang, G. Cohoon, O. D. Herrera et al., Optics Express, vol.22, p.15992, 2014.

M. Ellegaard, T. Lenau, N. Lundholm, C. Maibohm, S. M. Friis et al., Journal of Applied Phycology, 2016.

M. A. Ferrara, P. Dardano, L. Stefano, I. Rea, G. Coppola et al., PLoS ONE, vol.9, p.103750, 2014.

J. Romann, J. Valmalette, A. Røyset, and M. Einarsrud, Optics Letters, vol.40, p.740, 2015.

X. Chen, C. Wang, E. Baker, and C. , Sun, Scientific Reports, vol.5, p.11977, 2015.

A. Boutaric, Journal de Physique Théorique et Appliquée, vol.7, pp.264-291, 1908.

R. Petit and D. Maystre, Revue de Physique Appliquée, vol.7, pp.427-441, 1972.

L. Stefano, P. Maddalena, L. Moretti, I. Rea, I. Rendina et al.,

M. D. Mocella and . Stefano, Superlattices and Microstructures, vol.46, pp.84-89, 2009.

. Vii and . Références,

N. Okada, D. Zhu, D. Cai, J. B. Cole, M. Kambe et al., Journal of Optics, vol.42, pp.25-36, 2013.

M. A. Steindorfer, V. Schmidt, M. Belegratis, B. Stadlober, and J. R. Krenn, Optics Express, vol.20, p.21485, 2012.

R. T. Lee and G. S. Smith, Applied Optics, vol.48, p.4177, 2009.

A. Mejdoubi, C. Andraud, S. Berthier, J. Lafait, J. Boulenguez et al., Physical Review E, vol.87, 2013.

B. Gralak, G. Tayeb, and S. Enoch, Optics Express, vol.9, p.567, 2001.

L. Stefano, P. Maddalena, L. Moretti, I. Rea, I. Rendina et al.,

M. D. Mocella and . Stefano, Superlattices and Microstructures, vol.46, pp.84-89, 2009.

L. Stefano, I. Rea, I. Rendina, M. Stefano, and L. Moretti, Optics Express, vol.15, p.18082, 2007.

T. Fuhrmann, S. Landwehr, M. E. Rharbi-kucki, and M. Sumper, Applied Physics B: Lasers and Optics, vol.78, pp.257-260, 2004.

J. Romann, J. Valmalette, M. S. Chauton, G. Tranell, M. Einarsrud et al., Scientific Reports, vol.5, p.17403, 2015.

J. Romann, J. Valmalette, A. Røyset, and M. Einarsrud, Optics Letters, vol.40, p.740, 2015.

X. Chen, C. Wang, E. Baker, and C. , Sun, Scientific Reports, vol.5, p.11977, 2015.

G. Dhatt, E. Lefrançois, and G. Touzot, Finite Element Method, 2012.

L. Stefano, I. Rea, I. Rendina, M. Stefano, and L. Moretti, Optics Express, vol.15, p.18082, 2007.

, Données supplémentaires, vol.4

, Les valeurs des indices optiques de la silice amorphe pour les longueurs d'ondes visibles

, Ces valeurs ont été nécessaires pour la simulation numérique des interactions lumière-frustule