Advances in Imaging and Electron Physics, Volume 186 by Peter W. Hawkes

By Peter W. Hawkes

Advances in Imaging & Electron Physics merges long-running serials-Advances in Electronics & Electron Physics and Advances in Optical & Electron Microscopy. The sequence positive aspects prolonged articles at the physics of electron units (especially semiconductor devices), particle optics at low and high energies, microlithography, photo technological know-how and electronic picture processing, electromagnetic wave propagation, electron microscopy, and the computing equipment utilized in these kinds of domains.

  • Contributions from major gurus
  • Informs and updates on all of the most recent advancements within the field

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Extra resources for Advances in Imaging and Electron Physics, Volume 186

Example text

Aguiar, J. , & Browning, N. D. (2012). Atomicscale imaging and spectroscopy for in situ liquid scanning transmission electron microscopy. Microscopy and Microanalysis, 18, 621–627. Klein, K. , Anderson, I. , & de Jonge, N. (2011). Transmission electron microscopy with a liquid flow cell. Journal of Microscopy, 242, 117–123. Kourkoutis, L. , Plitzko, J. , & Baumeister, W. (2012). Electron microscopy of biological materials at the nanometer scale. Annual Review of Materials Research, 42, 33–58. , & de Jonge, N.

5. CONCLUSIONS Electron microscopy of specimens in liquid can be accomplished with three commercially available approaches. The open chamber technique is easily performed using ESEM at a beam energy of several tens of kilovolts and cooled liquid specimens. The highest resolution (to several nanometers) can be achieved for the imaging of high-Z nanoparticles using the ESEM-STEM DF detector. Regular TEM or STEM, using a beam energy of several hundred kilovolts, is mostly accomplished using a liquid enclosure 32 Niels de Jonge et al.

Nano Letters, 6, 238–242. , & de Jonge, N. (2013). The influence of the sample thickness on the lateral and axial resolution of aberration-corrected scanning transmission electron microscopy. Microscopy and Microanalysis, 19, 93–101. , & Kohl, H. (2008). Transmission Electron Microscopy: Physics of Image Formation. New York: Springer. Ring, E. , & de Jonge, N. (2010). Microfluidic system for transmission electron microscopy. Microscopy and Microanalysis, 16, 622–629. Ring, E. , & de Jonge, N. (2012).

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