M. Lewenstein, A. Sanpera, V. Ahufinger, B. Damski, A. Sen et al., Advances in Physics, vol.56, p.243, 2007.

I. Bloch, J. Dalibard, and W. Zwerger, Reviews of Modern Physics, vol.80, p.885, 2008.

G. V. Hartland, The Journal of Physical Chemistry Letters, vol.2, p.1111, 2011.

M. N. O´brieno´brien, M. R. Jones, B. Lee, and C. A. Mirkin, Nature Materials, vol.14, p.833, 2015.

R. L. Marson, T. D. Nguyen, and S. C. Glotzer, MRS Communications, vol.5, p.397, 2015.

S. F. Tan, S. W. Chee, G. Lin, and U. Mirsaidov, Accounts of Chemical Research, vol.50, p.1303, 2017.

R. L. Whetten, M. N. Shafigullin, J. T. Khoury, T. G. Schaaff, I. Vezmar et al., Accounts of Chemical Research, vol.32, p.397, 1999.

M. Brust, D. J. Schiffrin, D. Bethell, and C. J. Kiely, Advanced Materials, vol.7, p.795, 1995.

D. Grasso, K. Subramaniam, M. Butkus, K. Strevett, and J. Bergendahl, Reviews in Environmental Science and Biotechnology, vol.1, p.17, 2002.

S. K. Ghosh and T. Pal, Chemical Reviews, vol.107, p.4797, 2007.

J. J. Storhoff, A. A. Lazarides, R. C. Mucic, C. A. Mirkin, R. L. Letsinger et al., Journal of the American Chemical Society, vol.122, p.4640, 2000.

N. Goubet and M. Pileni, The Journal of Physical Chemistry Letters, vol.2, p.1024, 2011.

M. Pileni, Journal of Physics: Condensed Matter, vol.23, p.503102, 2011.

W. I. David, R. M. Ibberson, J. C. Matthewman, K. Prassides, T. J. Dennis et al., Nature, vol.353, p.147, 1991.

J. Echeverría, D. Casanova, M. Llunell, P. Alemany, and S. Alvarez, Chemical Communications, p.2717, 2008.

M. A. Strzhemechny and E. A. Katz, Fullerenes, Nanotubes and Carbon Nanostructures, vol.12, p.281, 2005.

E. A. Katz, D. Faiman, K. Iakoubovskii, A. Isakina, K. A. Yagotintsev et al., Journal of Applied Physics, vol.93, p.3401, 2003.

Z. Zhong, S. Patskovskyy, P. Bouvrette, J. H. Luong, and A. Gedanken, The Journal of Physical Chemistry B, vol.108, p.4046, 2004.

X. Ye, J. Chen, B. T. Diroll, and C. B. Murray, Nano Letters, vol.13, p.1291, 2013.

S. A. Krasnikov, S. I. Bozhko, K. Radican, O. Lübben, B. E. Murphy et al., Nano Research, vol.4, p.194, 2011.

Y. Ma, M. Eremets, A. R. Oganov, Y. Xie, I. Trojan et al., Nature, vol.458, p.182, 2009.

J. Hubbard, Proceedings of the Royal Society of London A: Mathematical, Physical and Engineering Sciences, vol.276, pp.238-257, 1963.

G. M. Whitesides and B. Grzybowski, Science, vol.295, p.2418, 2002.

S. C. Glotzer, M. J. Solomon, and N. A. Kotov, AIChE Journal, vol.50, p.2978, 2004.

X. Bouju, C. Mattioli, G. Franc, A. Pujol, and A. Gourdon, Chemical Reviews, vol.117, p.1407, 2017.

Y. Min, M. Akbulut, K. Kristiansen, Y. Golan, and J. Israelachvili, Nature Materials, vol.7, p.527, 2008.

K. J. Bishop, C. E. Wilmer, S. Soh, and B. A. Grzybowski, Small, vol.5, p.1600, 2009.

D. Luo, C. Yan, and T. Wang, Small, vol.11, p.5984, 2015.

J. N. Israelachvili, Intermolecular and Surface Forces, 2011.

D. V. Talapin, E. V. Shevchenko, C. B. Murray, A. V. Titov, and P. Král, Nano Letters, vol.7, p.1213, 2007.

S. Lee and W. M. Sigmund, Colloids and Surfaces A: Physicochemical and Engineering Aspects, vol.204, p.43, 2002.

V. A. Parsegian, der Waals Forces. A Handbook for Biologists, Chemists, Engineers, and Physicists, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00817659

I. E. Dzyaloshinskii, E. M. Lifshitz, and L. P. Pitaevskii, Physics-Uspekhi, vol.4, p.153, 1961.

C. Girard and X. Bouju, Journal of Chemical Physics, vol.95, p.2056, 1991.

C. Girard, X. Bouju, and C. Joachim, Chemical Physics, vol.168, p.203, 1992.

H. Kim, J. O. Sofo, D. Velegol, M. W. Cole, and A. A. Lucas, Langmuir, vol.23, p.1735, 2007.

B. V. Derjaguin and L. Landau, Acta Physicochimica USSR, vol.14, p.633, 1941.

E. J. Verwey, The Journal of Physical and Colloid Chemistry, vol.51, p.631, 1947.

E. J. Verwey and J. T. Overbeek, Theory of the stability of lyophobic colloids, 1999.

E. V. Shevchenko, D. V. Talapin, N. A. Kotov, S. O´brieno´brien, and C. B. Murray, Nature, vol.439, p.55, 2006.

A. M. Kalsin, M. Fialkowski, M. Paszewski, S. K. Smoukov, K. J. Bishop et al., Science, vol.312, p.420, 2006.

V. Liljeström, J. Seitsonen, and M. A. Kostiainen, ACS Nano, vol.9, p.11278, 2015.

J. Faraudo, J. S. Andreu, C. Calero, and J. Camacho, Advanced Functional Materials, vol.26, p.3837, 2016.

J. Hernández-rojas, D. Chakrabarti, and D. J. Wales, Physical Chemistry Chemical Physics, vol.18, p.26579, 2016.

B. Bharti, F. Kloger, C. K. Hall, S. H. Klapp, and O. D. Velev, Soft Matter, vol.12, p.7747, 2016.

S. M. Taheri, M. Michaelis, T. Friedrich, B. Förster, M. Drechsler et al., Proceedings of the National Academy of Sciences, vol.112, p.14484, 2015.

B. V. Derjaguin, Kolloid Zeitschrift, vol.69, p.155, 1934.

E. Rabani and S. A. Egorov, The Journal of Chemical Physics, vol.115, p.3437, 2001.

E. Rabani and S. A. Egorov, Nano Letters, vol.2, p.69, 2002.

U. Landman and W. D. Luedtke, Faraday Discussions, vol.125, p.1, 2004.

W. D. Luedtke and U. Landman, The Journal of Physical Chemistry, vol.100, p.13323, 1996.

H. N. Lekkerkerker and R. Tuinier, Colloids and the depletion interaction, vol.833, 2011.

K. Park, H. Koerner, and R. A. Vaia, Nano Letters, vol.10, p.1433, 2010.

J. Zhang, P. R. Lang, M. Meyer, and J. K. Dhont, Langmuir, vol.29, p.4679, 2013.

D. Baranov, A. Fiore, M. Van-huis, C. Giannini, A. Falqui et al., Nano Letters, vol.10, p.743, 2010.

Y. Wang, Y. Wang, X. Zheng, G. Yi, S. Sacanna et al., Journal of the American Chemical Society, vol.136, p.6866, 2014.

M. Gacek, D. Bergsman, E. Michor, and J. C. Berg, Langmuir, vol.28, p.11633, 2012.

A. R. Godfrey-alig, M. Akbulut, Y. Golan, and J. Israelachvili, Advanced Functional Materials, vol.16, p.2127, 2006.

Y. Min, M. Akbulut, R. K. Prud´hommeprud´homme, Y. Golan, and J. Israelachvili, The Journal of Physical Chemistry B, vol.112, p.14395, 2008.

F. Sciortino, G. Casterou, P. Eliat, M. Troadec, C. Gaillard et al., , vol.2, p.759, 2016.

G. A. Jeffrey, An Introduction to Hydrogen Bonding, 1997.

W. Liu, M. Tagawa, H. L. Xin, T. Wang, H. Emamy et al., Science, vol.351, p.582, 2016.

H. B. Casimir and D. Polder, Physical Review, vol.73, p.360, 1948.

W. M. Simpson, Surprises in Theoretical Casimir Physics, 2015.

S. K. Lamoreaux, Physical Review Letters, vol.78, 1997.

G. Bressi, G. Carugno, R. Onofrio, and G. Ruoso, Physical Review Letters, vol.88, p.41804, 2002.

B. W. Ninham and J. Daicic, Physical Review A, vol.57, p.1870, 1998.

F. S. Rosa, D. A. Dalvit, and P. W. Milonni, Physical Review A, vol.78, p.32117, 2008.

D. Dalvit, P. Milonni, D. Roberts, and F. Da-rosa, Casimir Physics, vol.834, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00112983

J. N. Munday, F. Capasso, and V. A. Parsegian, Nature, vol.457, p.170, 2009.

H. Guo, T. Narayanan, M. Sztuchi, P. Schall, and G. H. Wegdam, Physical Review Letters, vol.100, p.188303, 2008.

M. T. Dang, A. V. Verde, V. D. Nguyen, P. G. Bolhuis, and P. Schall, The Journal of Chemical Physics, vol.139, p.94903, 2013.

M. E. Fisher and P. De-gennes, Comptes Rendus de l'Academie Des Sciences Serie B, vol.287, p.207, 1978.

A. Gambassi, Journal of Physics: Conference Series, vol.161, p.12037, 2009.

C. Hertlein, L. Helden, A. Gambassi, S. Dietrich, and C. Bechinger, Nature, vol.451, p.172, 2008.

V. D. Nguyen, S. Faber, Z. Hu, G. H. Wegdam, and P. Schall, Nature Communications, vol.4, p.2597, 2013.

N. Gnan, E. Zaccarelli, and F. Sciortino, Nature Communications, vol.5, p.3267, 2014.

S. Paladugu, A. Callegari, Y. Tuna, L. Barth, S. Dietrich et al., Nature Communications, vol.7, p.11403, 2016.

I. A. Martínez, C. Devailly, A. Petrosyan, and S. Ciliberto, Entropy, vol.19, p.77, 2017.

M. A. Boles, D. Ling, T. Hyeon, and D. V. Talapin, Nature Materials, vol.15, p.141, 2016.

M. A. Boles, M. Engel, and D. V. Talapin, Chemical Reviews, vol.116, p.11220, 2016.

Z. Huang, P. S. White, and M. Brookhart, Nature, vol.465, p.598, 2010.

L. Pontani, M. F. Haase, I. Raczkowska, and J. Brujic, Soft Matter, vol.9, p.7150, 2013.

A. B. Pawar and I. Kretzschmar, Macromolecular Rapid Communications, vol.31, p.150, 2010.

E. Bianchi, R. Blaak, and C. N. Likos, Physical Chemistry Chemical Physics, vol.13, p.6397, 2011.

G. Yi, D. J. Pine, and S. Sacanna, Journal of Physics: Condensed Matter, vol.25, p.193101, 2013.

S. Sacanna, D. J. Pine, and G. Yi, Soft Matter, vol.9, p.8096, 2013.

E. Duguet, C. Hubert, C. Chomette, A. Perro, and S. Ravaine, Comptes Rendus Chimie, vol.19, p.173, 2016.

P. Grammatikopoulos and M. Sowwan, Gas-Phase Synthesis of Nanoparticles, pp.269-286, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01718890

H. W. Hatch, S. Yang, J. Mittal, and V. K. Shen, Soft Matter, vol.12, p.4170, 2016.

E. Bianchi, J. Largo, P. Tartaglia, E. Zaccarelli, and F. Sciortino, Physical review letters, vol.97, p.168301, 2006.

E. Bianchi, P. Tartaglia, E. Zaccarelli, and F. Sciortino, The Journal of Chemical physics, vol.128, p.144504, 2008.

Z. Zhang and S. C. Glotzer, Nano Letters, vol.4, p.1407, 2004.

Z. Zhang, A. S. Keys, T. Chen, and S. C. Glotzer, Langmuir, vol.21, p.11547, 2005.

L. H. Tan, H. Xing, and Y. Lu, Accounts of Chemical Research, vol.47, p.1881, 2014.

Y. Kim, R. J. Macfarlane, M. R. Jones, and C. A. Mirkin, Science, vol.351, p.579, 2016.

E. Auyeung, T. I. Li, A. J. Senesi, A. L. Schmucker, B. C. Pals et al., Nature, vol.505, p.73, 2014.

M. R. Jones, R. J. Macfarlane, B. Lee, J. Zhang, K. L. Young et al., Nature Materials, vol.9, p.913, 2010.

S. E. Seo, M. X. Wang, C. M. Shade, J. L. Rouge, K. A. Brown et al., ACS Nano, vol.10, p.1771, 2015.

R. R. Mazid, K. J. Si, and W. Cheng, Methods, vol.67, p.215, 2014.

C. A. Batista, R. G. Larson, and N. A. Kotov, Science, vol.350, p.1242477, 2015.

J. H. Conway and N. J. Sloane, Sphere packings, lattices and groups, vol.290, 2013.

T. C. Hales, Annals of Mathematics, vol.162, p.1065, 2005.

G. Van-anders, D. Klotsa, N. K. Ahmed, M. Engel, and S. C. Glotzer, Proceedings of the National Academy of Sciences, vol.111, p.4812, 2014.

K. L. Young, M. L. Personick, M. Engel, P. F. Damasceno, S. N. Barnaby et al., Angewandte Chemie International Edition, vol.52, p.13980, 2013.

W. B. Russel, D. A. Saville, and W. R. Schowalter, Colloidal Dispersions, 1989.

M. Elimelech, J. Gregory, X. Jia, and R. A. Williams, Particle Deposition and Aggregation: Measurement, Modeling, and Simulation, 1995.

S. Bhattacharjee, M. Elimelech, and M. Borkovec, Croatica Chemica Acta, vol.71, p.883, 1998.

A. V. Tkachenko, Proceedings of the National Academy of Sciences, vol.113, p.10269, 2016.

M. J. Murray and J. V. Sanders, Philosophical Magazine A, vol.42, p.721, 1980.

M. D. Eldridge, P. A. Madden, and D. Frenkel, Nature, vol.365, p.35, 1993.

G. Trefalt and M. Borkovec, , 2014.

S. Asakura and F. Oosawa, The Journal of Chemical Physics, vol.22, p.1255, 1954.

S. Asakura and F. Oosawa, Journal of Polymer Science, vol.33, p.183, 1958.

N. Yang, Z. Yang, M. Held, P. Bonville, P. Albouy et al., ACS nano, vol.10, p.2277, 2016.

R. R. Collino, T. R. Ray, R. C. Fleming, C. H. Sasaki, H. Haj-hariri et al., Extreme Mechanics Letters, vol.5, p.37, 2015.

P. T. Korda, G. C. Spalding, and D. G. Grier, Physical Review B, vol.66, p.24504, 2002.

S. Yang, S. Kim, J. Lim, and G. Yi, Journal of Materials Chemistry, vol.18, p.2177, 2008.

M. Volmer and A. Weber, Zeitschrift für Physikalische Chemie (Leipzig), vol.119, p.277, 1926.

R. Becker and W. Döring, Annalen der Physik, vol.416, p.719, 1935.

U. Gasser, Journal of Physics: Condensed Matter, vol.21, p.203101, 2009.

J. L. Harland and W. Van-megen, Physical Review E, vol.55, p.3054, 1997.

K. Schätzel and B. J. Ackerson, Physical Review E, vol.48, p.3766, 1993.

S. Auer and D. Frenkel, Nature, vol.409, p.1020, 2001.

U. Gasser, E. R. Weeks, A. Schofield, P. N. Pusey, and D. A. Weitz, Science, vol.292, p.258, 2001.

B. O´malleyo´malley and I. Snook, Physical Review Letters, vol.90, p.85702, 2003.

Y. Wang, Y. Wang, X. Zheng, ´. E. Ducrot, J. S. Yodh et al., Nature Communications, vol.6, p.7253, 2015.

W. M. Jacobs and D. Frenkel, Journal of the American Chemical Society, vol.138, p.2457, 2016.

A. Reinhardt, C. P. Ho, and D. Frenkel, Faraday Discussions, vol.186, p.215, 2016.

H. Yan, S. Cingarapu, K. J. Klabunde, A. Chakrabarti, and C. M. Sorensen, Physical Review Letters, vol.102, p.95501, 2009.

S. G. Kwon and T. Hyeon, Small, vol.7, p.2685, 2011.

V. K. Lamer and R. H. Dinegar, Journal of the American Chemical Society, vol.72, p.4847, 1950.

G. M. Lothe and J. Pound, The Journal of Chemical Physics, vol.36, p.2080, 1962.

N. T. Thanh, N. Maclean, and S. Mahiddine, Chemical Reviews, vol.114, p.7610, 2014.

R. Viswanatha and D. D. Sarma, Nanomaterials Chemistry, pp.139-170, 2007.

A. Baldan, Journal of Materials Science, vol.37, p.2171, 2002.

V. Radmilovic, C. Ophus, E. A. Marquis, M. D. Rossell, A. Tolley et al., Nature Materials, vol.10, p.710, 2011.

C. J. Kuehmann and P. W. Voorhees, Metallurgical and Materials Transactions A, vol.27, p.937, 1996.

W. Lee, M. G. Kim, J. Choi, J. Park, S. J. Ko et al., Journal of the American Chemical Society, vol.127, p.16090, 2005.

Y. Xia, T. D. Nguyen, M. Yang, B. Lee, A. Santos et al., Nature nanotechnology, vol.6, p.580, 2011.

J. E. Funk and D. Dinger, Predictive process control of crowded particulate suspensions: applied to ceramic manufacturing, 2013.

E. Dickinson and R. Parker, Journal de Physique Lettres, vol.46, p.229, 1985.

P. N. Pusey, Journal de Physique, vol.48, p.709, 1987.

M. Fasolo and P. Sollich, Physical Review E, vol.70, p.41410, 2004.

M. Fasolo and P. Sollich, Physical Review Letters, vol.91, p.68301, 2003.

M. D. Rintoul and S. Torquato, The Journal of Chemical Physics, vol.105, p.9258, 1996.

M. Gardner, The colossal book of mathematics: classic puzzles, paradoxes, and problems: number theory, algebra, geometry, probability, topology, game theory, infinity, and other topics of recreational mathematics, 2001.

C. Song, P. Wang, and H. A. Makse, Nature, vol.453, p.629, 2008.

V. N. Manoharan and D. J. Pine, MRS Bulletin, vol.29, p.91, 2004.

U. Gasser, Journal of Physics: Condensed Matter, vol.21, p.203101, 2009.

V. J. Anderson and H. N. Lekkerkerker, Nature, vol.416, p.811, 2002.

J. Largo, M. A. Miller, and F. Sciortino, The Journal of Chemical Physics, vol.128, p.134513, 2008.

M. A. Miller and D. Frenkel, Physical Review Letters, vol.90, p.135702, 2003.

M. Gardner, New mathematical diversions (Mathematical Association of America, 1995.

M. A. Boles and D. V. Talapin, Journal of the American Chemical Society, vol.136, p.5868, 2014.

P. Chaikin, S. Wang, and A. Jaoshvili, APS Meeting Abstracts, 2007.

E. R. Chen, Discrete & Computational Geometry, vol.40, p.214, 2008.

S. Torquato and Y. Jiao, Physical Review E, vol.80, p.41104, 2009.

E. R. Chen, M. Engel, and S. C. Glotzer, Discrete & Computational Geometry, vol.44, p.253, 2010.

S. Torquato and Y. Jiao, Physical Review E, vol.81, p.41310, 2010.

P. F. Damasceno, M. Engel, and S. C. Glotzer, Science, vol.337, p.453, 2012.

S. Torquato and Y. Jiao, Physical Review E, vol.86, p.11102, 2012.

J. Henzie, M. Grünwald, A. Widmer-cooper, P. L. Geissler, and P. Yang, Nature Materials, vol.11, p.131, 2012.

A. Haji-akbari, M. Engel, A. S. Keys, X. Zheng, R. G. Petschek et al., Nature, vol.462, p.773, 2009.

Y. Kallus, V. Elser, and S. Gravel, Discrete & Computational Geometry, vol.44, p.245, 2010.

R. Gabbrielli, Y. Jiao, and S. Torquato, Physical Review E, vol.86, p.41141, 2012.

J. De-graaf, R. Van-roij, and M. Dijkstra, Physical Review Letters, vol.107, p.155501, 2011.

A. Donev, F. H. Stillinger, P. M. Chaikin, and S. Torquato, Physical Review Letters, vol.92, p.255506, 2004.

A. Kuijk, D. V. Byelov, A. V. Petukhov, A. V. Blaaderen, and A. Imhof, Faraday Discussions, vol.159, p.181, 2013.

A. P. Gantapara, J. De-graaf, R. Van-roij, and M. Dijkstra, Physical Review Letters, vol.111, p.15501, 2013.

B. De-nijs, S. Dussi, F. Smallenburg, J. D. Meeldijk, D. J. Groenendijk et al., Nature Materials, vol.14, p.56, 2015.

A. F. De-moura, K. Bernardino, C. J. Dalmaschio, E. R. Leite, and N. A. Kotov, Physical Chemistry Chemical Physics, vol.17, p.3820, 2015.

A. Widmer-cooper and P. L. Geissler, ACS Nano, vol.10, p.1877, 2016.

J. Zhang, Z. Luo, Z. Quan, Y. Wang, A. Kumbhar et al., Nano Letters, vol.11, p.2912, 2011.

R. Li, J. Zhang, R. Tan, F. Gerdes, Z. Luo et al., Nano Letters, vol.16, p.2792, 2016.

J. Zhang, Z. Luo, B. Martens, Z. Quan, A. Kumbhar et al., Journal of the American Chemical Society, vol.134, p.14043, 2012.

S. Xie, X. Zhou, X. Han, Q. Kuang, M. Jin et al., The Journal of Physical Chemistry C, vol.113, p.19107, 2009.

T. R. Gordon, T. Paik, D. R. Klein, G. V. Naik, H. Caglayan et al., Nano Letters, vol.13, p.2857, 2013.

X. S. Shen, G. Z. Wang, X. Hong, and W. Zhu, CrystEngComm, vol.11, p.753, 2009.

Y. Zhang, F. Lu, D. Van-der-lelie, and O. Gang, Physical Review Letters, vol.107, p.135701, 2011.

H. Chan, A. Demortì-ere, L. Vukovic, P. Král, and C. Petit, ACS Nano, vol.6, p.4203, 2012.

Z. Quan, H. Xu, C. Wang, X. Wen, Y. Wang et al., Journal of the American Chemical Society, vol.136, p.1352, 2014.

J. J. Choi, K. Bian, W. J. Baumgardner, D. Smilgies, and T. Hanrath, Nano Letters, vol.12, p.4791, 2012.

T. Wang, J. Zhuang, J. Lynch, O. Chen, Z. Wang et al., Science, vol.338, p.358, 2012.

S. Disch, E. Wetterskog, R. P. Hermann, G. Salazaralvarez, P. Busch et al., Nano Letters, vol.11, p.1651, 2011.

H. J. Brouwers, Physical Review E, vol.76, p.41304, 2007.

H. J. Brouwers, Physical Review E, vol.78, p.11303, 2008.

A. Hynninen, J. H. Thijssen, E. C. Vermolen, M. Dijkstra, and A. Van-blaaderen, Nature Materials, vol.6, p.202, 2007.

F. Lu, K. G. Yager, Y. Zhang, H. Xin, and O. Gang, Nature Communications, vol.6, p.6912, 2015.

´. E. Ducrot, M. He, G. Yi, and D. J. Pine, Nature Materials, 2017.

C. Yan and T. Wang, Chemical Society Reviews, vol.46, p.1483, 2017.

F. García-santamaría, H. Miyazaki, A. Urquía, M. Ibisate, M. Belmonte et al., Advanced Materials, vol.14, p.1144, 2002.

R. Hieronimus, S. Raschke, and A. Heuer, The Journal of Chemical Physics, vol.145, p.64303, 2016.

L. Hong, A. Cacciuto, E. Luijten, and S. Granick, Langmuir, vol.24, p.621, 2008.

N. Kern and D. Frenkel, The Journal of Chemical Physics, vol.118, p.9882, 2003.

F. Sciortino, E. Bianchi, J. F. Douglas, and P. Tartaglia, The Journal of Chemical Physics, vol.126, p.194903, 2007.

M. S. Wertheim, Journal of Statistical Physics, vol.42, p.459, 1986.

Z. Zhang and S. C. Glotzer, Nano Letters, vol.4, p.1407, 2004.

F. Romano and F. Sciortino, Soft Matter, vol.7, p.5799, 2011.

D. Z. Rocklin and X. Mao, Soft Matter, vol.10, p.7569, 2014.

F. Romano and F. Sciortino, Nature Communications, vol.3, p.975, 2012.

A. B. Pawar and I. Kretzschmar, Langmuir, vol.25, p.9057, 2009.

D. J. Ashton, R. L. Jack, and N. B. Wilding, Soft Matter, vol.9, p.9661, 2013.

F. Romano, P. Tartaglia, and F. Sciortino, Journal of Physics: Condensed Matter, vol.19, p.322101, 2007.

F. Romano, E. Sanz, and F. Sciortino, The Journal of Chemical Physics, vol.132, p.184501, 2010.

G. Doppelbauer, E. G. Noya, E. Bianchi, and G. Kahl, Journal of Physics: Condensed Matter, vol.24, p.284124, 2012.

E. Bianchi, G. Doppelbauer, L. Filion, M. Dijkstra, and G. Kahl, The Journal of Chemical Physics, vol.136, p.214102, 2012.

F. Smallenburg and F. Sciortino, Nature Physics, vol.9, p.554, 2013.

G. Van-anders, N. K. Ahmed, R. Smith, M. Engel, and S. C. Glotzer, ACS Nano, vol.8, p.931, 2014.

J. Chang, A. M. Lenhoff, and S. I. Sandler, The Journal of Chemical Physics, vol.120, p.3003, 2004.

J. P. Doye, A. A. Louis, I. Lin, L. R. Allen, E. G. Noya et al., Physical Chemistry Chemical Physics, vol.9, p.2197, 2007.

E. G. Noya, C. Vega, J. P. Doye, and A. A. Louis, The Journal of Chemical Physics, vol.127, p.54501, 2007.

Z. Nie, D. Fava, E. Kumacheva, S. Zou, G. C. Walker et al., Nature Materials, vol.6, p.609, 2007.

S. Sacanna, W. T. Irvine, P. M. Chaikin, and D. J. Pine, Nature, vol.464, p.575, 2010.

Q. Chen, S. C. Bae, and S. Granick, Nature, vol.469, p.381, 2011.

S. Kim, G. Yi, K. H. Kim, and S. Yang, Langmuir, vol.24, p.2365, 2008.

D. J. Kraft, W. S. Vlug, C. M. Van-kats, A. Van-blaaderen, A. Imhof et al., Journal of the American Chemical Society, vol.131, p.1182, 2009.

V. Meester, R. W. Verweij, C. Van-der-wel, and D. J. Kraft, ACS Nano, vol.10, p.4322, 2016.

E. Lauga and M. P. Brenner, Physical Review Letters, vol.93, p.238301, 2004.

V. N. Manoharan, Science, vol.301, p.483, 2003.

G. Yi, V. N. Manoharan, E. Michel, M. T. Elsesser, S. Yang et al., Advanced Materials, vol.16, p.1204, 2004.

Y. Cho, G. Yi, S. Kim, S. Jeon, M. T. Elsesser et al., Chemistry of Materials, vol.19, p.3183, 2007.

Y. Wang, Y. Wang, D. R. Breed, V. N. Manoharan, L. Feng et al., Nature, vol.491, p.51, 2012.

A. Perro, E. Duguet, O. Lambert, J. Taveau, E. Bourgeat-lami et al., Angewandte Chemie International Edition, vol.48, p.361, 2009.

A. Désert, I. Chaduc, S. Fouilloux, J. Taveau, O. Lambert et al., Polymer Chemistry, vol.3, p.1130, 2012.

A. Désert, C. Hubert, Z. Fu, L. Moulet, J. Majimel et al., Angewandte Chemie International Edition, vol.52, p.11068, 2013.

C. Hubert, C. Chomette, A. Désert, M. Sun, M. Treguer-delapierre et al., Faraday Discuss, vol.181, p.139, 2015.

A. Désert, J. Morele, J. Taveau, O. Lambert, M. Lansalot et al., Nanoscale, vol.8, p.5454, 2016.

C. Chomette, P. E. Rouet, L. Adumeau, M. Treguerdelapierre, S. Mornet et al.,

S. Y. Park, A. K. Lytton-jean, B. Lee, S. Weigand, G. C. Schatz et al., Nature, vol.451, p.553, 2008.

D. Nykypanchuk, M. M. Maye, D. Van-der-lelie, and O. Gang, Nature, vol.451, p.549, 2008.

E. Auyeung, J. I. Cutler, R. J. Macfarlane, M. R. Jones, J. Wu et al., Nature Nanotechnology, vol.7, p.24, 2012.

M. B. Zanjani, I. C. Jenkins, J. C. Crocker, and T. Sinno, ACS Nano, vol.10, p.11280, 2016.

J. D. Halverson and A. V. Tkachenko, Physical Review E, vol.87, p.62310, 2013.

M. N. O´brieno´brien, H. Lin, M. Girard, M. Olvera-de-la-cruz, and C. A. Mirkin, Journal of the American Chemical Society, vol.138, p.14562, 2016.

D. Frenkel, Nature Materials, vol.14, p.9, 2015.

W. M. Jacobs, A. Reinhardt, and D. Frenkel, Proceedings of the National Academy of Sciences, vol.112, p.6313, 2015.

W. M. Jacobs and D. Frenkel, Soft Matter, vol.11, p.8930, 2015.

A. Kuzyk, R. Schreiber, Z. Fan, G. Pardatscher, E. Roller et al., Nature, vol.483, p.311, 2012.

T. Tigges, T. Heuser, R. Tiwari, and A. Walther, Nano Letters, vol.16, 2016.

S. Pal, R. Varghese, Z. Deng, Z. Zhao, A. Kumar et al., Angewandte Chemie International Edition, vol.50, p.4176, 2011.

H. Y. Chen, S. Abraham, J. Mendenhall, S. C. Delamarre, K. Smith et al., ChemPhysChem, vol.9, p.388, 2008.

L. H. Tan, H. Xing, H. Chen, and Y. Lu, Journal of the American Chemical Society, vol.135, p.17675, 2013.

S. C. Glotzer and M. J. Solomon, Nature Materials, vol.6, p.557, 2007.

O. Gang, Faraday Discussions, vol.186, p.529, 2016.

S. John, Physics Today, vol.44, p.32, 1991.

E. Yablonovitch, Journal of the Optical Society of America B, vol.10, p.283, 1993.

J. D. Joannopoulos, S. G. Johnson, J. N. Winn, and R. D. Meade, Photonic crystals: molding the flow of light, 2011.
DOI : 10.2307/j.ctvcm4gz9

J. D. Joannopoulos, P. R. Villeneuve, and S. Fan, Nature, vol.386, p.143, 1997.

A. Scherer, T. Doll, E. Yablonovitch, H. O. Everitt, and J. A. Higgins, Journal of Lightwave Technology, vol.17, p.1928, 1999.

H. Cong, B. Yu, J. Tang, Z. Li, and X. Liu, Chemical Society Reviews, vol.42, p.7774, 2013.

G. Von-freymann, V. Kitaev, B. V. Lotsch, and G. A. Ozin, Chemical Society Reviews, vol.42, p.2528, 2013.

H. Zheng and S. Ravaine, Crystals, vol.6, p.54, 2016.

E. Yablonovitch, Physical Review Letters, vol.58, p.2059, 1987.

S. John, Physical Review Letters, vol.58, p.2486, 1987.

K. M. Leung and Y. F. Liu, Physical Review Letters, vol.65, p.2646, 1990.

Z. Zhang and S. Satpathy, Physical Review Letters, vol.65, p.2650, 1990.

H. S. Sözüer, J. W. Haus, and R. Inguva, Physical Review B, vol.45, p.13962, 1992.

J. W. Haus, Journal of Modern Optics, vol.41, p.195, 1994.

V. Lousse, J. Vigneron, X. Bouju, and J. ,

. Vigoureux, Physical Review B, vol.64, p.201104, 2001.

Z. Li, J. Wang, and B. Gu, Journal of the Physical Society of Japan, vol.67, p.3288, 1998.

Y. Xia, B. Gates, and Z. Li, Advanced Materials, vol.13, p.409, 2001.

Z. Li, J. Wang, and B. Gu, Physical Review B, vol.58, p.3721, 1998.

S. Simeonov, U. Bass, and A. R. Mcgurn, Physica B: Condensed Matter, vol.228, p.245, 1996.

I. D. Hosein, M. Ghebrebrhan, J. D. Joannopoulos, and C. M. Liddell, Langmuir, vol.26, p.2151, 2010.

J. Kim, R. J. Larsen, and D. A. Weitz, Advanced Materials, vol.19, 2005.

S. Reculusa, C. Poncet-legrand, A. Perro, E. Duguet, E. Bourgeat-lami et al., Chemistry of Materials, vol.17, p.3338, 2005.

I. D. Hosein, S. H. Lee, and C. M. Liddell, Advanced Functional Materials, vol.20, p.3085, 2010.

K. Ho, T. Chan, and C. Soukoulis, Physical Review Letters, vol.65, p.3152, 1990.

M. Maldovan, C. K. Ullal, W. C. Carter, and E. L. Thomas, Nature Materials, vol.2, p.664, 2003.

A. Moroz, Physical Review B, vol.66, p.115109, 2002.

A. Garcia-adeva, New Journal of Physics, vol.8, p.86, 2006.

Z. Li and Z. Zhang, Physical Review B, vol.62, p.1516, 2000.

T. T. Ngo, C. M. Liddell, M. Ghebrebrhan, and J. D. Joannopoulos, Applied Physics Letters, vol.88, p.241920, 2006.

E. C. Nelson and P. V. Braun, Science, vol.318, p.924, 2007.

D. R. Nelson, Nano Letters, vol.2, p.1125, 2002.

X. Mao, Q. Chen, and S. Granick, Nature Materials, vol.12, p.217, 2013.

D. R. Smith, W. J. Padilla, D. Vier, S. C. Nemat-nasser, and S. Schultz, Physical Review Letters, vol.84, p.4184, 2000.

J. Hunt, T. Driscoll, A. Mrozack, G. Lipworth, M. Reynolds et al., Science, vol.339, p.310, 2013.

A. Tao, P. Sinsermsuksakul, and P. Yang, Nature Nanotechnology, vol.2, p.435, 2007.

C. Chen, S. Tzeng, H. Chen, K. Lin, and S. Gwo, Journal of the American Chemical Society, vol.130, p.824, 2008.

J. Chao, Y. Lin, H. Liu, L. Wang, and C. Fan, Materials Today, vol.18, p.326, 2015.

M. B. Ross, J. C. Ku, V. M. Vaccarezza, G. C. Schatz, and C. A. Mirkin, Nature nanotechnology, vol.10, p.453, 2015.

Y. Wang, H. Arandiyan, J. Scott, A. Bagheri, H. Dai et al., Journal of Materials Chemistry A, vol.5, p.8825, 2017.

C. R. Henry, Catalysis Letters, vol.145, p.731, 2015.

K. R. Phillips, G. T. England, S. Sunny, E. Shirman, T. Shirman et al., Chemical Society Reviews, vol.45, p.281, 2016.

H. Arandiyan, H. Dai, K. Ji, H. Sun, and J. Li, ACS Catalysis, vol.5, p.1781, 2015.

Y. Wang, H. Arandiyan, J. Scott, M. Akia, H. Dai et al., ACS Catalysis, vol.6, 2016.

Y. Wei, J. Jiao, X. Zhang, B. Jin, Z. Zhao et al., Nanoscale, vol.9, p.4558, 2017.

J. Jiao, Y. Wei, Z. Zhao, W. Zhong, J. Liu et al., Catalysis Today, vol.258, p.319, 2015.

C. Dinh, H. Yen, F. Kleitz, T. Do, and A. Chemie, , vol.53, p.6618, 2014.

E. Morsbach, S. Kunz, and M. Bäumer, Catalysis Science & Technology, vol.6, p.339, 2016.

M. Curti, J. Schneider, D. W. Bahnemann, and C. B. Mendive, The journal of physical chemistry letters, vol.6, p.3903, 2015.

M. Pileni, Journal of Physics D: Applied Physics, vol.41, p.134002, 2008.

E. C. Stoner and E. P. Wohlfarth, Philosophical Transactions of the Royal Society A: Physical, Mathematical and Engineering Sciences, vol.240, p.599, 1948.

S. A. Claridge, A. W. Castleman, S. N. Khanna, C. B. Murray, A. Sen et al., Acs Nano, vol.3, p.244, 2009.

S. A. Majetich, T. Wen, and R. A. Booth, ACS Nano, vol.5, p.6081, 2011.

G. Reiss and A. Hütten, Nature Materials, vol.4, p.725, 2005.

H. Zeng, J. Li, J. P. Liu, Z. L. Wang, and S. Sun, Nature, vol.420, p.395, 2002.

M. Pileni, Surface Science, vol.603, p.1498, 2009.

M. Pileni, Journal of Materials Chemistry, vol.21, p.16748, 2011.

J. Ge, Y. Hu, and Y. Yin, Angewandte Chemie International Edition, vol.46, p.7428, 2007.

X. Guo, B. Sun, J. Zhang, H. Liu, and G. Wang, Journal of Materials Chemistry A, vol.4, p.9774, 2016.

M. E. Ghezal, Y. Maalej, and I. Doghri, Computational Materials Science, vol.70, p.51, 2013.

T. J. Willmore, Riemannian geometry, 1996.

A. I. Bobenko, Combinatorial and computational geometry, vol.52, p.133, 2005.

W. Helfrich, Zeitschrift für Naturforschung C, vol.28, p.693, 1973.

Y. Wei, B. Wang, J. Wu, R. Yang, and M. L. Dunn, Nano letters, vol.13, p.26, 2012.

L. Yu and C. Ru, Mathematics and Mechanics of Solids, p.1081286515597735, 2015.

D. W. Abueidda, R. K. Al-rub, A. S. Dalaq, D. Lee, K. A. Khan et al., Mechanics of Materials, vol.95, p.102, 2016.

R. Bruinsma, Journal de Physique II, vol.2, p.425, 1992.

D. C. Miller, M. Terrones, and H. Terrones, Carbon, vol.96, p.1191, 2016.

Z. Qin, G. S. Jung, M. J. Kang, and M. J. Buehler, Science Advances, vol.3, 2017.

I. Gibson, D. Rosen, and B. Stucker, Additive manufacturing technologies: 3D printing, rapid prototyping, and direct digital manufacturing, 2014.

J. Lehn, Angewandte Chemie International Edition, vol.52, p.2836, 2013.

L. Cademartiri and K. J. Bishop, Nature Materials, vol.14, 2015.

W. B. Rogers, W. M. Shih, and V. N. Manoharan, Nature Reviews Materials, vol.1, p.16008, 2016.

Z. Zeravcic, V. N. Manoharan, and M. P. Brenner, Proceedings of the National Academy of Sciences, vol.111, p.15918, 2014.