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Sculpting light by arranging optical components with DNA nanostructures

  • Mauricio Pilo-Pais (a1), Guillermo P. Acuna (a2), Philip Tinnefeld (a3) and Tim Liedl (a4)
Abstract

DNA nanotechnology has developed into a state where the design and assembly of complex nanoscale structures is fast, reliable, cost effective, and accessible to nonexperts. Nanometer-precise positioning of organic (e.g., dyes and biomolecules) and inorganic (e.g., metal nanoparticles and colloidal quantum dots) components on DNA nanostructures is straightforward and modular. In this article, we identify the opportunities and challenges that DNA-assembled devices and materials face for optical antennas, metamaterials, and sensing applications. With the ability to arrange hybrid components in defined geometries, plasmonic effects will, for example, amplify molecular recognition transduction such that single-molecule events will be measureable with simple devices. On a larger scale, DNA nanotechnology has the potential to break the symmetry of common self-assembled functional materials, creating predefined optical properties such as refractive-index tuning and topological insulation.

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1. Maradudin, A., Sambles, J.R., Barnes, W.L., Eds., Modern Plasmonics (Elsevier, 2014).
2. Ding, B., Deng, Z., Yan, H., Cabrini, S., Zuckermann, R.N., Bokor, J., J. Am. Chem. Soc. 132, 1 (2010).
3. Bui, H., Onodera, C., Kidwell, C., Tan, Y., Graugnard, E., Kuang, W., Lee, J., Knowlton, W.B., Yurke, B., Hughes, W.L., Nano Lett. 10, 3367 (2010).
4. Zhang, T., Neumann, A., Lindlau, J., Wu, Y., Pramanik, G., Naydenov, B., Jelezko, F., Schüder, F., Huber, S., Huber, M., Stehr, F., Högele, A., Weil, T., Liedl, T., J. Am. Chem. Soc. 137, 9776 (2015).
5. Stein, I.H., Steinhauer, C., Tinnefeld, P., J. Am. Chem. Soc. 133, 4193 (2011).
6. Schreiber, R., Do, J., Roller, E.-M., Zhang, T., Schüller, V.J., Nickels, P.C., Feldmann, J., Liedl, T., Nat. Nanotechnol. 9, 74 (2014).
7. Jungmann, R., Avendano, M.S., Dai, M., Woehrstein, J.B., Agasti, S.S., Feiger, Z., Rodal, A., Yin, P., Nat. Methods 13, 439 (2016).
8. Wang, P., Chatterjee, G., Yan, H., LaBean, T.H., Turberfield, A.J., Castro, C.E., Seelig, G., Ke, Y., MRS Bull. 42 (12), 889 (2017).
9. Novotny, L., van Hulst, N., Nat. Photonics 5, 83 (2011).
10. Kinkhabwala, A., Yu, Z., Fan, S., Avlasevich, Y., Müllen, K., Moerner, W.E., Nat. Photonics 3, 654 (2009).
11. Curto, A.G., Volpe, G., Taminiau, T.H., Kreuzer, M.P., Quidant, R., van Hulst, N.F., Science 329, 930 (2010).
12. Santhosh, K., Bitton, O., Chuntonov, L., Haran, G., Nat. Commun. 7, 11823 (2016).
13. Hill, R.T., Mock, J.J., Urzhumov, Y., Sebba, D.S., Oldenburg, S.J., Chen, S.-Y., Lazarides, A.A., Chilkoti, A., Smith, D.R., Nano Lett. 10, 4150 (2010).
14. Ciraci, C., Hill, R.T., Mock, J.J., Urzhumov, Y., Fernandez-Dominguez, A.I., Maier, S.A., Pendry, J.B., Chilkoti, A., Smith, D.R., Science 337, 1072 (2012).
15. Akselrod, G.M., Argyropoulos, C., Hoang, T.B., Ciracì, C., Fang, C., Huang, J., Smith, D.R., Mikkelsen, M.H., Nat. Photonics 8, 1 (2014).
16. Hoang, T.B., Akselrod, G.M., Argyropoulos, C., Huang, J., Smith, D.R., Mikkelsen, M.H., Nat. Commun. 6, 7788 (2015).
17. Chikkaraddy, R., de Nijs, B., Benz, F., Barrow, S.J., Scherman, O.A., Rosta, E., Demetriadou, A., Fox, P., Hess, O., Baumberg, J.J., Nature 535, 127 (2016).
18. Chhabra, R., Sharma, J., Wang, H., Zou, S., Lin, S., Yan, H., Lindsay, S., Liu, Y., Nanotechnology 20, 485201 (2009).
19. Acuna, G.P., Bucher, M., Stein, I.H., Steinhauer, C., Kuzyk, A., Holzmeister, P., Schreiber, R., Moroz, A., Stefani, F.D., Liedl, T., Simmel, F.C., Tinnefeld, P., ACS Nano 6, 3189 (2012).
20. Samanta, A., Zhou, Y., Zou, S., Yan, H., Liu, Y., Nano Lett. 14, 5052 (2014).
21. Nicoli, F., Roos, M.K., Hemmig, E.A., Di Antonio, M., de Vivie-Riedle, R., Liedl, T., J. Phys. Chem. A 120, 9941 (2016).
22. Acuna, G.P., Moller, F.M., Holzmeister, P., Beater, S., Lalkens, B., Tinnefeld, P., Science 338, 506 (2012).
23. Busson, M.P., Rolly, B., Stout, B., Bonod, N., Bidault, S., Nat. Commun. 3, 962 (2012).
24. Busson, M.P., Bidault, S., Nano Lett. 14, 284 (2014).
25. Puchkova, A., Vietz, C., Pibiri, E., Wünsch, B., Sanz Paz, M., Acuna, G.P., Tinnefeld, P., Nano Lett. 15, 8354 (2015).
26. Vietz, C., Kaminska, I., Sanz Paz, M., Tinnefeld, P., Acuna, G.P., ACS Nano 11, 4969 (2017).
27. Zhang, T., Gao, N., Li, S., Lang, M.J., Xu, Q.-H., J. Phys. Chem. Lett. 6, 2043 (2015).
28. Pellegrotti, J.V., Acuna, G.P., Puchkova, A., Holzmeister, P., Gietl, A., Lalkens, B., Stefani, F.D., Tinnefeld, P., Nano Lett. 14, 2831 (2014).
29. Thacker, V.V., Herrmann, L.O., Sigle, D.O., Zhang, T., Liedl, T., Baumberg, J.J., Keyser, U.F., Nat. Commun. 5, 3448 (2014).
30. Kühler, P., Roller, E.-M., Schreiber, R., Liedl, T., Lohmüller, T., Feldmann, J., Nano Lett. 14, 2914 (2014).
31. Pilo-Pais, M., Watson, A., Demers, S., Labean, T.H., Finkelstein, G., Nano Lett. 14, 2099 (2014).
32. Simoncelli, S., Roller, E.-M., Urban, P., Schreiber, R., Turberfield, A.J., Liedl, T., Lohmueller, T., ACS Nano 10, 9809 (2016).
33. Lim, D.-K., Jeon, K.-S., Hwang, J.-H., Kim, H., Kwon, S., Suh, Y.D., Nam, J.-M., Nat. Nanotechnol. 6, 452 (2011).
34 Prinz, J., Schreiber, B., Olejko, L., Oertel, J., Rackwitz, J., Keller, A., Bald, I., J. Phys. Chem. Lett. 4, 4140 (2013).
35. Prinz, J., Heck, C., Ellerik, L., Merk, V., Bald, I., Nanoscale 8, 5612 (2016).
36. Bidault, S., Devilez, A., Ghenuche, P., Stout, B., Bonod, N., Wenger, J., ACS Photonics 3, 895 (2016).
37. Aissaoui, N., Moth-Poulsen, K., Kall, M., Johansson, P., Wilhelmsson, L.M., Albinsson, B., Nanoscale 9, 673 (2017).
38. Holzmeister, P., Pibiri, E., Schmied, J.J., Sen, T., Acuna, G.P., Tinnefeld, P., Nat. Commun. 5, 5356 (2014).
39. Raab, M., Vietz, C., Stefani, F.D., Acuna, G.P., Tinnefeld, P., Nat. Commun. 8, 13966 (2017).
40. Vogele, K., List, J., Pardatscher, G., Holland, N.B., Simmel, F.C., Pirzer, T., ACS Nano 10, 11377 (2016).
41. Gür, F.N., Schwarz, F.W., Ye, J., Diez, S., Schmidt, T.L., ACS Nano 10, 5374 (2016).
42. Knudsen, J.B., Liu, L., Bank Kodal, A.L., Madsen, M., Li, Q., Song, J., Woehrstein, J.B., Wickham, S.F.J., Strauss, M.T., Schueder, F., Vinther, J., Krissanaprasit, A., Gudnason, D., Smith, A.A.A., Ogaki, R., Zelikin, A.N., Besenbacher, F., Birkedal, V., Yin, P., Shih, W.M., Jungmann, R., Dong, M., Gothelf, K.V., Nat. Nanotechnol. 10, 892 (2015).
43. Cannon, B.L., Kellis, D.L., Davis, P.H., Lee, J., Kuang, W., Hughes, W.L., Graugnard, E., Yurke, B., Knowlton, W.B., ACS Photonics 2, 398 (2015).
44. Dutta, P.K., Varghese, R., Nangreave, J., Lin, S., Yan, H., Liu, Y., J. Am. Chem. Soc. 133, 11985 (2011).
45. Hemmig, E.A., Creatore, C., Wünsch, B., Hecker, L., Mair, P., Parker, M.A., Emmott, S., Tinnefeld, P., Keyser, U.F., Chin, A.W., Nano Lett. 16, 2369 (2016).
46. Olejko, L., Bald, I., RSC Adv. 7, 23924 (2017).
47. Buckhout-White, S., Spillmann, C.M., Algar, W.R., Khachatrian, A., Melinger, J.S., Goldman, E.R., Ancona, M.G., Medintz, I.L., Curr. Opin. Chem. Biol. 5, 5615 (2014).
48. Wientjes, E., Renger, J., Curto, A.G., Cogdell, R., van Hulst, N.F., Nat. Commun. 5, 4236 (2014).
49. Tame, M.S., Mcenery, K.R., Özdemir, Ş.K., Lee, J., Maier, S.A., Kim, M.S., Nat. Phys. 9, 329 (2013).
50. Vasa, P., Lienau, C., ACS Photonics (2017), doi:10.1021/acsphotonics.7b00650.
51. Törmä, P., Barnes, W.L., Rep. Prog. Phys. 78, 13901 (2015).
52. Birnbaum, K.M., Boca, A., Miller, R., Boozer, A.D., Northup, T.E., Kimble, H.J., Nature 436, 87 (2005).
53. Roller, E.-M., Argyropoulos, C., Högele, A., Liedl, T., Pilo-Pais, M., Nano Lett. 16, 5962 (2016).
54. Busson, M.P., Rolly, B., Stout, B., Bonod, N., Larquet, E., Polman, A., Bidault, S., Nano Lett. 11, 5060 (2011).
55. Lee, Y.J., Schade, N.B., Sun, L., Fan, J.A., Bae, D.R., Mariscal, M.M., Lee, G., Capasso, F., Sacanna, S., Manoharan, V.N., Yi, G.R., ACS Nano 7, 11064 (2013).
56. Kuzyk, A., Schreiber, R., Fan, Z., Pardatscher, G., Roller, E.-M., Högele, A., Simmel, F.C., Govorov, A.O., Liedl, T., Nature 483, 311 (2012).
57. Shen, X., Song, C., Wang, J., Shi, D., Wang, Z., Liu, N., Ding, B., J. Am. Chem. Soc. 134, 146 (2012).
58. Schreiber, R., Luong, N., Fan, Z., Kuzyk, A., Nickels, P.C., Zhang, T., Smith, D.M., Yurke, B., Kuang, W., Govorov, A.O., Liedl, T., Nat. Commun. 4, 2948 (2013).
59. Kuzyk, A., Schreiber, R., Zhang, H., Govorov, A.O., Liedl, T., Liu, N., Nat. Mater. 13, 1 (2014).
60. Zhou, C., Duan, X., Liu, N., Nat. Commun. 6, 8102 (2015).
61. Zhan, P., Dutta, P.K., Wang, P., Song, G., Dai, M., Zhao, S.-X., Wang, Z.-G., Yin, P., Zhang, W., Ding, B., Ke, Y., ACS Nano 11, 1172 (2017).
62. Kuzyk, A., Yang, Y., Duan, X., Stoll, S., Govorov, A.O., Sugiyama, H., Endo, M., Liu, N., Nat. Commun. 7, 10591 (2016).
63. Kuzyk, A., Urban, M.J., Idili, A., Ricci, F., Liu, N., Sci. Adv. 3, e1602803 (2017).
64. Roller, E.-M., Khorashad, L.K., Fedoruk, M., Schreiber, R., Govorov, A.O., Liedl, T., Nano Lett. 15, 1368 (2015).
65. Fan, J.A., He, Y., Bao, K., Wu, C., Bao, J., Schade, N.B., Manoharan, V.N., Shvets, G., Nordlander, P., Liu, D.R., Capasso, F., Nano Lett. 11, 4859 (2011).
66. Luk’yanchuk, B., Zheludev, N.I., Maier, S.A., Halas, N.J., Nordlander, P., Giessen, H., Chong, C.T., Nat. Mater. 9, 707 (2010).
67. Roller, E.-M., Besteiro, L.V., Pupp, C., Khorashad, L.K., Govorov, A.O., Liedl, T., Nat. Phys. 13, 761 (2017).
68. Poddubny, A., Miroshnichenko, A., Slobozhanyuk, A., Kivshar, Y., ACS Photonics 1, 101 (2014).
69. Berini, P., De Leon, I., Nat. Photonics 6 (1), 16 (2012).
70. Jahani, S., Jacob, Z., Nat. Nanotechnol. 11, 23 (2016).
71. Zheng, J., Birktoft, J.J., Chen, Y., Wang, T., Sha, R., Constantinou, P.E., Ginell, S.L., Mao, C., Seeman, N.C., Nature 461, 74 (2009).
72. Park, D.J., Zhang, C., Ku, J.C., Zhou, Y., Schatz, G.C., Mirkin, C.A., Proc. Natl. Acad. Sci. U.S.A. 112, 977 (2015).
73. Liu, W., Tagawa, M., Xin, H.L., Wang, T., Emamy, H., Li, H., Yager, K.G., Starr, F.W., Tkachenko, A.V., Gang, O., Science 351, 3 (2016).
74. Melinger, J.S., Sha, R., Mao, C., Seeman, N.C., Ancona, M.G., J. Phys. Chem. B 120, 12287 (2016).
75. Zhang, T., Hartl, C., Fischer, S., Frank, K., Nickels, P., Heuer-Jungemann, A., Nickel, B., Liedl, T., Prepr. Arxiv arXiv:1706.06965 (2017).
76. Mohammadreza Khorasaninejad, F.C., Chen, W.T., Devlin, R.C., Oh, J., Zhu, A.Y., Capasso, F., Science 352, 1190 (2016).
77. Kershner, R.J., Bozano, L.D., Micheel, C.M., Hung, A.M., Fornof, A.R., Cha, J.N., Rettner, C.T., Bersani, M., Frommer, J., Rothemund, P.W.K., Wallraff, G.M., Nat. Nanotechnol. 4, 557 (2009).
78. Gopinath, A., Miyazono, E., Faraon, A., Rothemund, P.W.K., Nature 535, 401 (2016).
79. Pibiri, E., Holzmeister, P., Lalkens, B., Acuna, G.P., Tinnefeld, P., Nano Lett. 14, 3499 (2014).
80. Raschke, G., Kowarik, S., Franzl, T., Sönnichsen, C., Klar, T.A., Feldmann, J., Nichtl, A., Kürzinger, K., Nano Lett. 3, 935 (2003).
81. Taylor, A.B., Zijlstra, P., ACS Sensors 2, 1103 (2017).
82. Wei, Q., Acuna, G., Kim, S., Vietz, C., Tseng, D., Chae, J., Shir, D., Luo, W., Tinnefeld, P., Ozcan, A., Sci. Rep. 7, 2124 (2017).
83. Wang, D., Vietz, C., Schröder, T., Acuna, G., Lalkens, B., Tinnefeld, P., Nano Lett. 17, 9 (2017).
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