Biological processes often involve multimolecular interactions on a nanometre scale or at very large molecular concentrations, making them difficult to visualize. Optical antennas have the potential to become powerful tools for nanobioimaging by enhancing optical fields on this tiny scale.
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References
Grakoui, A. et al. Science 285, 221–227 (1999).
Cambi, A. et al. J. Cell Bio. 164, 145–155 (2004).
Schomburg, D. & Schomburg, I. Springer Handbook of Enzymes 2nd edn (Springer, New York, 2001).
Patel, S. S., Wong, I. & Johnson, K. A. Biochem. 30, 511 (1991).
de Lange, F. et al. J. Cell Sci. 114, 4153–4160 (2001).
Ianoul, A. et al. Nature Chem. Biol. 1, 196–202 (2005).
de Bakker, B. I. et al. ChemPhysChem 8, 1473–1480 (2007).
de Bakker, B. I. et al. J. Cell Sci. 121, 627–633 (2008).
Rechberger, W. et al. Opt. Commun. 220, 137–141 (2003).
Mühlschlegel, P., Eisler, H.-J., Martin, O. J. F., Hecht, B. & Pohl, D. W. Science 308, 1607–1609 (2005).
Schuck, P. J., Fromm, D. P., Sundaramurthy, A., Kino, G. S. & Moerner, W. E. Phys. Rev. Lett. 94, 017402 (2005).
Levene, M. J. et al. Science 299, 682–686 (2003).
Anger, P., Bharadwaj, P. & Novotny, L. Phys. Rev. Lett. 96, 113002 (2006).
Kühn, S., Håkanson, U., Rogobete, L. & Sandoghdar, V. Phys. Rev. Lett. 97, 017402 (2006).
Farahani, J. N., Pohl, D. W., Eisler, H.-J. & Hecht, B. Phys. Rev. Lett. 95, 017402 (2005).
Höppener, C. & Novotny, L. Nano Lett. 8, 642–646 (2008).
Frey, H. G., Witt, S., Felderer, K. & Guckenberger, R. Phys. Rev. Lett. 93, 200801 (2004).
Taminiau, T. H., Moerland, R. J., Segerink, F. B., Kuipers, L. & van Hulst, N. F. Nano Lett. 7, 28–33 (2007).
Taminiau, T. H., Moerland, R. J., Segerink, F. B., Kuipers, L. & van Hulst, N. F. J. Opt. A 9, S315–S321 (2007).
Brehm, M., Taubner, T., Hillenbrand, R. & Keilmann, F. Nano Lett. 6, 1307–1310 (2006).
Pettinger, B., Ren, B., Picardi, G., Schuster, R. & Ertl, G. Phys. Rev. Lett. 92, 096101 (2004).
Hell. S. W. Science 316, 1153–1158 (2007).
Betzig, E. et al. Science 313, 1642–1645 (2006).
Rust, M. J., Bates, M. & Zhuang, X. Nature Methods 3, 793–795 (2006).
Eddin, M. Nature Rev. Mol. Cell Biol. 4, 414–418 (2003).
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Garcia-Parajo, M. Optical antennas focus in on biology. Nature Photon 2, 201–203 (2008). https://doi.org/10.1038/nphoton.2008.37
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DOI: https://doi.org/10.1038/nphoton.2008.37
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