[HTML][HTML] Optimize Electron Beam Energy toward In Situ Imaging of Thick Frozen Bio-Samples with Nanometer Resolution Using MeV-STEM
To optimize electron energy for in situ imaging of large biological samples up to 10 μm in
thickness with nanoscale resolutions, we implemented an analytical model based on elastic …
thickness with nanoscale resolutions, we implemented an analytical model based on elastic …
Optimize Electron Beam Energy toward In Situ Imaging of Thick Frozen Bio-Samples with Nanometer Resolution Using MeV-STEM
To optimize electron energy for in situ imaging of large biological samples up to 10 μm in
thickness with nanoscale resolutions, we implemented an analytical model based on elastic …
thickness with nanoscale resolutions, we implemented an analytical model based on elastic …
Optimize electron beam energy toward in-situ imaging of large thick bio-samples with nanometer resolution
To optimize electron energy toward in-situ imaging large bio-samples up to 10-um thickness
with nanoscale resolution, we implemented an analytical model based on elastic and …
with nanoscale resolution, we implemented an analytical model based on elastic and …
Monte Carlo simulation of electron interactions in an MeV-stem for thick frozen biological sample imaging
L Wang, X Yang - Biophysical Journal, 2024 - cell.com
To visualize thick biological samples a variety of volume electron microscopy techniques
have been developed. In Array Tomography, sections prepared using microtomes, cryo …
have been developed. In Array Tomography, sections prepared using microtomes, cryo …
[HTML][HTML] Towards Construction of a Novel Nanometer-Resolution MeV-STEM for Imaging Thick Frozen Biological Samples
Driven by life-science applications, a mega-electron-volt Scanning Transmission Electron
Microscope (MeV-STEM) has been proposed here to image thick frozen biological samples …
Microscope (MeV-STEM) has been proposed here to image thick frozen biological samples …
Towards construction of a novel nm resolution MeV-STEM for imaging of thick biological samples
Driven by life-science applications, mega-electron-volt Scanning Transmission Electron
Microscope (MeV-STEM) has been proposed to image thick biological samples. The high …
Microscope (MeV-STEM) has been proposed to image thick biological samples. The high …
Low-dose imaging techniques for transmission electron microscopy
Transmission electron microscopes have the ability to visualize almost any specimen at the
nanoscale. Unfortunately, modified imaging protocols are needed when samples are …
nanoscale. Unfortunately, modified imaging protocols are needed when samples are …
Assessing Critical Dose for Beam-sensitive Samples using Low-dose Counted in-situ Video
BK Miller, M Xu, C Czarnik - 2023 - academic.oup.com
While transmission electron microscopy (TEM) can elucidate the structure of nanomaterials
from the micro to the atomic scale, many functional materials are beam sensitive. This has …
from the micro to the atomic scale, many functional materials are beam sensitive. This has …
Real-time electron counting for continuous TEM imaging of sensitive samples
B Miller, A Pakzad, S Mick - Microscopy and Microanalysis, 2019 - cambridge.org
In situ transmission electron microscopy (TEM) enables observation of sample dynamics at
the nanoscale. However, observations performed in the TEM have always suffered from …
the nanoscale. However, observations performed in the TEM have always suffered from …
Towards the low-dose characterization of beam sensitive nanostructures via implementation of sparse image acquisition in scanning transmission electron microscopy
Scanning transmission electron microscopy (STEM) has been successfully utilized to
investigate atomic structure and chemistry of materials with atomic resolution. However …
investigate atomic structure and chemistry of materials with atomic resolution. However …