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Scanning Microscopy
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September 1, 1991
Elemental analysis and fine structure of mitochondrial granules in growth plate chondrocytes studied by electron energy loss spectroscopy and energy dispersive X-ray microanalysis
J Wroblewski, R Wróblewski, C Mory, et al.
Science (New York, N.Y.)
|
August 26, 1994
Aligned carbon nanotube arrays formed by cutting a polymer resin--nanotube composite
P M Ajayan, O Stephan, C Colliex, et al.
Journal of Ultrastructure Research
|
September 1, 1982
Septate junction ultrastructure as visualized in unstained and stained preparations
R M Garavito, E Carlemalm, C Colliex, et al.
Ultramicroscopy
|
September 1, 1992
New STEM multisignal imaging modes, made accessible through the evaluation of detection efficiencies
C Jeanguillaume, C Colliex, P Ballongue, et al.
Ultramicroscopy
|
September 1, 1976
Contribution of electron energy loss spectroscopy to the development of analytical electron microscopy
C Colliex, V E Cosslett, R D Leapman, et al.
Scanning Microscopy. Supplement
|
January 1, 1988
Evaluation and optimization of the performance of elastic and inelastic scanning transmission electron microscope imaging by correlation analysis
C Mory, N Bonnet, C Colliex, et al.
Journal of Ultrastructure Research
|
September 1, 1982
Heavy metal-containing surroundings provide much more "negative" contrast by Z-imaging in STEM than with conventional modes
E Carlemalm, J D Acetarin, W Villiger, et al.
Journal of Microscopy
|
January 1, 1989
Energy filtered STEM imaging of thick biological sections
C Colliex, C Mory, A L Olins, et al.
Physical Review Letters
|
October 4, 2005
Electron energy loss spectroscopy measurement of the optical gaps on individual boron nitride single-walled and multiwalled nanotubes
R Arenal, O Stéphan, M Kociak, et al.
Annals of the New York Academy of Sciences
|
January 1, 1986
Z-contrast in biology. A comparison with other imaging modes
E Kellenberger, E Carlemalm, W Villiger, et al.
Page
of 4
Search research articles
Search
Showing results (11-20 of 40) with videos related to
Sort By:
Page
of 4
Scanning Microscopy
|
September 1, 1991
Elemental analysis and fine structure of mitochondrial granules in growth plate chondrocytes studied by electron energy loss spectroscopy and energy dispersive X-ray microanalysis
J Wroblewski, R Wróblewski, C Mory, et al.
Science (New York, N.Y.)
|
August 26, 1994
Aligned carbon nanotube arrays formed by cutting a polymer resin--nanotube composite
P M Ajayan, O Stephan, C Colliex, et al.
Journal of Ultrastructure Research
|
September 1, 1982
Septate junction ultrastructure as visualized in unstained and stained preparations
R M Garavito, E Carlemalm, C Colliex, et al.
Ultramicroscopy
|
September 1, 1992
New STEM multisignal imaging modes, made accessible through the evaluation of detection efficiencies
C Jeanguillaume, C Colliex, P Ballongue, et al.
Ultramicroscopy
|
September 1, 1976
Contribution of electron energy loss spectroscopy to the development of analytical electron microscopy
C Colliex, V E Cosslett, R D Leapman, et al.
Scanning Microscopy. Supplement
|
January 1, 1988
Evaluation and optimization of the performance of elastic and inelastic scanning transmission electron microscope imaging by correlation analysis
C Mory, N Bonnet, C Colliex, et al.
Journal of Ultrastructure Research
|
September 1, 1982
Heavy metal-containing surroundings provide much more "negative" contrast by Z-imaging in STEM than with conventional modes
E Carlemalm, J D Acetarin, W Villiger, et al.
Journal of Microscopy
|
January 1, 1989
Energy filtered STEM imaging of thick biological sections
C Colliex, C Mory, A L Olins, et al.
Physical Review Letters
|
October 4, 2005
Electron energy loss spectroscopy measurement of the optical gaps on individual boron nitride single-walled and multiwalled nanotubes
R Arenal, O Stéphan, M Kociak, et al.
Annals of the New York Academy of Sciences
|
January 1, 1986
Z-contrast in biology. A comparison with other imaging modes
E Kellenberger, E Carlemalm, W Villiger, et al.
Page
of 4