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References

  • Axelrod, D. (2001) Total internal reflection fluorescence microscopy in cell biology. Traffic 2(11), 764774.
  • Betzig, E., Patterson, G.H., Sougrat, R., et al . (2006) Imaging intracellular fluorescent proteins at nanometer resolution. Science 313(5793), 16421645.
  • Betzig, E. & Trautman, J.K. (1992) Near-field optics – microscopy, spectroscopy, and surface modification beyond the diffraction limit. Science 257(5067), 189195.
  • Costantino, S., Heinze, K.G., Martinez, O.E., De Koninck, P. & Wiseman, P.W. (2005) Two-photon fluorescent microlithography for live-cell imaging. Microsc. Res. Tech. 68(5), 272276.
  • Cumpston, B.H., Ananthavel, S.P., Barlow, S., et al . (1999) Two-photon polymerization initiators for three-dimensional optical data storage and microfabrication. Nature 398(6722), 5154.
  • Galajda, P. & Ormos, P. (2001) Complex micromachines produced and driven by light. Appl. Phys. Lett. 78(2), 249251.
  • Gustafsson, M.G.L. (2000) Surpassing the lateral resolution limit by a factor of two using structured illumination microscopy. J. Microsc. (Oxford) 198, 8287.
  • Hofmann, M., Eggeling, C., Jakobs, S. & Hell, S.W. (2005) Breaking the diffraction barrier in fluorescence microscopy at low light intensities by using reversibly photoswitchable proteins. Proc. Natl. Acad. Sci. U. S. A. 102(49), 1756517569.
  • Kawata, S., Sun, H.B., Tanaka, T. & Takada, K. (2001) Finer features for functional microdevices – micromachines can be created with higher resolution using two-photon absorption. Nature 412(6848), 697698.
  • Maruo, S., Nakamura, O. & Kawata, S. (1997) Three-dimensional microfabrication with two-photon-absorbed photopolymerization. Opt. Lett. 22(2), 132134.
  • Schmid, H., Biebuyck, A., Michel, B., Martien, O.J.F. & Piller, N.B. (1998) Ligth-couplilng masks: an alternative lensless approach to high-resolution optical contanct lithography. J. Vac. Sci. Technol. B. 16, 34223425.
  • Sun, H.B., Tanaka, T., Takada, K. & Kawata, S. (2001) Two-photon photopolymerization and diagnosis of three-dimensional microstructures containing fluorescent dyes. Appl. Phys. Lett. 79(10), 14111413.
  • Willig, K.I., Rizzoli, S.O., Westphal, V., Jahn, R. & Hell, S.W. (2006) STED microscopy reveals that synaptotagmin remains clustered after synaptic vesicle exocytosis. Nature 440(7086), 935939.