Single-walled carbon nanotubes and nanocrystalline graphene reduce beam-induced movements in high-resolution electron cryo-microscopy of ice-embedded biological samples

Rhinow D, Weber N-E, Turchanin A, Gölzhäuser A, Kühlbrandt W (2011)
Applied Physics Letters 99(13).

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Rhinow D, Weber N-E, Turchanin A, Gölzhäuser A, Kühlbrandt W. Single-walled carbon nanotubes and nanocrystalline graphene reduce beam-induced movements in high-resolution electron cryo-microscopy of ice-embedded biological samples. Applied Physics Letters. 2011;99(13).
Rhinow, D., Weber, N. - E., Turchanin, A., Gölzhäuser, A., & Kühlbrandt, W. (2011). Single-walled carbon nanotubes and nanocrystalline graphene reduce beam-induced movements in high-resolution electron cryo-microscopy of ice-embedded biological samples. Applied Physics Letters, 99(13).
Rhinow, D., Weber, N. - E., Turchanin, A., Gölzhäuser, A., and Kühlbrandt, W. (2011). Single-walled carbon nanotubes and nanocrystalline graphene reduce beam-induced movements in high-resolution electron cryo-microscopy of ice-embedded biological samples. Applied Physics Letters 99.
Rhinow, D., et al., 2011. Single-walled carbon nanotubes and nanocrystalline graphene reduce beam-induced movements in high-resolution electron cryo-microscopy of ice-embedded biological samples. Applied Physics Letters, 99(13).
D. Rhinow, et al., “Single-walled carbon nanotubes and nanocrystalline graphene reduce beam-induced movements in high-resolution electron cryo-microscopy of ice-embedded biological samples”, Applied Physics Letters, vol. 99, 2011.
Rhinow, D., Weber, N.-E., Turchanin, A., Gölzhäuser, A., Kühlbrandt, W.: Single-walled carbon nanotubes and nanocrystalline graphene reduce beam-induced movements in high-resolution electron cryo-microscopy of ice-embedded biological samples. Applied Physics Letters. 99, (2011).
Rhinow, D., Weber, N.-E., Turchanin, Andrey, Gölzhäuser, Armin, and Kühlbrandt, W. “Single-walled carbon nanotubes and nanocrystalline graphene reduce beam-induced movements in high-resolution electron cryo-microscopy of ice-embedded biological samples”. Applied Physics Letters 99.13 (2011).
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