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Aarts, E. Groeneveld, J. Scherff, W. Kegel, and H. Lekkerkerker, Colloidal hard-sphere crystal growth frustrated by large spherical impurities, Science 309, 1231-1233 (2005); DOI: 10.1126/science.1113207. [12] M. Leunissen, C. Christova, A. Hynninen, C. Royall, A. Campbell, A. Imhof, M. Dijkstra, R. van Roij, and A. van Blaaderen, Ionic colloidal crystals of oppositely charged particles, Nature 437, 235-240 (2005); DOI: 10.1038/nature03946. [13] P. Lodahl, A. van Driel, I. Nikolaev, A. Irman, K. Overgaag, D. Vanmaekelbergh, and W. Vos, Controlling the dynamics of spontaneous emission from quantum dots by photonic crystals, Nature 430, 654-657 (2004); DOI: 10.1038/nature02772. [14] P. Wernet, D. Nordlund, U. Bergmann, et al, The structure of the first coordination shell in liquid water, Science 304, 995-999 (2004); DOI: 10.1126/science.1096205. [15] M. Rasa and A. Philipse, Evidence for a macroscopic electric field in the sedimentation profiles of charged colloids, Nature 429, 857-860 (2004); DOI: 10.1038/nature02672. [16] D. Aarts, M. Schmidt, and H. Lekkerkerker, Direct visual observation of thermal capillary waves, Science 304, 847-850 (2004); DOI: 10.1126/science.1097116. [17] A. Yethiraj and A. van Blaaderen, A colloidal model system with an interaction tunable from hard sphere to soft and dipolar, Nature 421, 513-517 (2003); DOI: 10.1038/nature01328. [18] A. van Blaaderen, Colloidal molecules and beyond, Science 301, 470-471 (2003); DOI: 10.1126/science.108714. [19] K. Velikov, C. Christova, R. Dullens, and A. van Blaaderen, Layer-by-layer growth of binary colloidal crystals, Science 296, 106-109 (2002); DOI: 10.1126/science.1067141. [20] V. Anderson and H. Lekkerkerker, Insights into phase transition kinetics from colloid science, Nature 416, 811-815 (2002); DOI: 10.1038/416811a. [21] M. Albrecht, M. Lutz, A. Spek, and G. van Koten, Organoplatinum crystals for gas-triggered switches, Nature 406, 970-974 (2000); DOI: 10.1038/35023107. [22] W. Kegel and A. van Blaaderen, Direct observation of dynamical heterogeneities in colloidal hard-sphere suspensions, Science 287, 290-293 (2000); DOI: 10.1126/science.287.5451.290. [23] F. van der Kooij, K. Kassapidou, and H. Lekkerkerker, Liquid crystal phase transitions in suspensions of polydisperse plate-like particles, Nature 406, 868-871 (2000); DOI: 10.1038/35022535. [24] F. Schuurmans, D. Vanmaekelbergh, J. van de Lagemaat, and A. Lagendijk, Strongly photonic macroporous gallium phosphide networks, Science 284, 141-143 (1999); DOI: 10.1126/science.284.5411.141. [25] R. Wegh, H. Donker, K. Oskam, and A. Meijerink, Visible quantum cutting in LiGdF4 : Eu3+ through downconversion, Science 283, 663-666 (1999); DOI: 10.1126/science.283.5402.663. 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Imhof, and A. van Blaaderen, Switching plastic crystals of colloidal rods with electric fields, Nature Communications 5, 3092 (2014); DOI: 10.1038/ncomms4092. [32] F. T. Rabouw, S. A. den Hartog, T. Senden, and A. Meijerink, Photonic effects on the Forster resonance energy transfer efficiency, Nature Communications 5, 3610 (2014); DOI: 10.1038/ncomms4610. [33] C. Schmitz-Antoniak, D. Schmitz, P. Borisov, et al, Electric in-plane polarization in multiferroic CoFe2O4/BaTiO3 nanocomposite tuned by magnetic fields, Nature Communications 4 (2013); DOI: 10.1038/ncomms3051. [34] R. Ni, M. A. C. Stuart, and M. Dijkstra, Pushing the glass transition towards random close packing using self-propelled hard spheres, Nature Communications 4, 2704 (2013); DOI: 10.1038/ncomms3704. [35] G. Prieto, J. Zecevic, H. Friedrich, K. P. de Jong, and P. E. de Jongh, Towards stable catalysts by controlling collective properties of supported metal nanoparticles, Nature Materials 12, 34-39 (2013); DOI: 10.1038/NMAT3471. [36] J. van der Lit, M. P. Boneschanscher, D. Vanmaekelbergh, M. Ijas, A. Uppstu, M. Ervasti, A. Harju, P. Liljeroth, and I. Swart, Suppression of electron-vibron coupling in graphene nanoribbons contacted via a single atom, Nature Communications 4, 2023 (2013); DOI: 10.1038/ncomms3023. [37] S. D. M. Jacques, M. Di Michiel, S. A. J. Kimber, X. Yang, R. J. Cernik, A. M. Beale, and S. J. L. Billinge, Pair distribution function computed tomography, Nature Communications 4, 2536 (2013); DOI: 10.1038/ncomms3536. [38] I. L. C. Buurmans and B. M. Weckhuysen, Heterogeneities of individual catalyst particles in space and time as monitored by spectroscopy, Nature Chemistry 4, 873-886 (2012); DOI: 10.1038/NCHEM.1478. [39] F. M. F. de Groot, Dips and peaks in fluorescence yield X-ray absorption are due to statedependent decay, Nature Chemistry 4, 766-767 (2012); DOI: 10.1038/nchem.1431. [40] E. M. van Schrojenstein Lantman, T. Deckert-Gaudig, A. J. G. Mank, V. Deckert, and B. M. Weckhuysen, Catalytic processes monitored at the nanoscale with tip-enhanced Raman [41] [42] [43] [44] [45] [46] [47] [48] [49] [50] [51] [52] [53] [54] [55] spectroscopy, Nature Nanotechnology 7, 583-586 (2012); DOI: 10.1038/NNANO.2012.131. A. Jannasch, A. F. Demiroers, P. D. J. van Oostrum, A. van Blaaderen, and E. Schaeffer, Nanonewton optical force trap employing anti-reflection coated, high-refractive-index titania microspheres, Nature Photonics 6, 469-473 (2012); DOI: 10.1038/NPHOTON.2012.140. A. V. Kyrylyuk, M. C. Hermant, T. Schilling, B. Klumperman, C. E. Koning, and P. van der Schoot, Controlling electrical percolation in multicomponent carbon nanotube dispersions, Nature Nanotechnology 6, 364-369 (2011); DOI: 10.1038/nnano.2011.40. P. E. de Jongh, HYDROGEN STORAGE Keeping out the oxygen, Nature Materials 10, 265-266 (2011); DOI: 10.1038/nmat2995. I. L. C. Buurmans, J. Ruiz-Martinez, W. V. Knowles, D. van der Beek, J. A. Bergwerff, E. T. C. Vogt, and B. M. Weckhuysen, Catalytic activity in individual cracking catalyst particles imaged throughout different life stages by selective staining, Nature Chemistry 3, 862-867 (2011); DOI: 10.1038/NCHEM.1148. K. Miszta, J. de Graaf, G. Bertoni, et al, Hierarchical self-assembly of suspended branched colloidal nanocrystals into superlattice structures, Nature Materials 10, 872-876 (2011); DOI: 10.1038/NMAT3121. W. K. Kegel and H. N. W. Lekkerkerker, COLLOIDAL GELS Clay goes patchy, Nature Materials 10, 5-6 (2011); DOI: 10.1038/nmat2927. J. Repp, P. Liljeroth, and G. 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