Add to ORKGIn this contribution, we report the development of ultrafast electron microscopy (UEM) with atomic-scale real-, energy-, and Fourier-space resolutions. This second-generation UEM provides images, diffraction patterns, and electron energy spectra, and here we demonstrate its potential with applications for nanostructured materials and organometallic crystals. We clearly resolve the separation between atoms in the direct images and the Bragg spots/Debye−Scherrer rings in diffraction and obtain the electronic structure and elemental energies in the electron energy loss spectra (EELS) and energy filtered transmission electron microscopy (EFTEM)
Ultrafast electron microscopy and diffraction are powerful techniques for the study of the time-reso...
The static structure of macromolecular assemblies can be mapped out with atomic-scale resolution by ...
AbstractPump–probe electron diffraction and ultrafast microscopy, based on laser excitation and prob...
In this contribution, we report the development of ultrafast electron microscopy (UEM) with atomic-s...
In this contribution, we report the development of ultrafast electron microscopy (UEM) with atomic-s...
Pulsed electron beams allow for the direct atomic-scale observation of structures with femtosecond t...
Progress has been made in the development of four-dimensional ultrafast electron microscopy, which e...
Ultrafast measurement technology provides essential contributions to our understanding of the proper...
Electron microscopy is arguably the most powerful tool for spatial imaging of structures. As such, 2...
In this review, we highlight the progress made in the development of 4D ultrafast electron diffracti...
To study nature on the atomic scale one can use an electron microscope. However, this device cannot ...
Since the discovery of electron-wave duality, electron scattering instrumentation has developed into...
In the past decade, we have witnessed the rapid growth of the field of ultrafast electron microscopy...
Ultrafast electron microscopy (UEM) has been demonstrated as an effective table-top technique for im...
As an energy filter in transmission electron microscopy has improved the precision of structural det...
Ultrafast electron microscopy and diffraction are powerful techniques for the study of the time-reso...
The static structure of macromolecular assemblies can be mapped out with atomic-scale resolution by ...
AbstractPump–probe electron diffraction and ultrafast microscopy, based on laser excitation and prob...
In this contribution, we report the development of ultrafast electron microscopy (UEM) with atomic-s...
In this contribution, we report the development of ultrafast electron microscopy (UEM) with atomic-s...
Pulsed electron beams allow for the direct atomic-scale observation of structures with femtosecond t...
Progress has been made in the development of four-dimensional ultrafast electron microscopy, which e...
Ultrafast measurement technology provides essential contributions to our understanding of the proper...
Electron microscopy is arguably the most powerful tool for spatial imaging of structures. As such, 2...
In this review, we highlight the progress made in the development of 4D ultrafast electron diffracti...
To study nature on the atomic scale one can use an electron microscope. However, this device cannot ...
Since the discovery of electron-wave duality, electron scattering instrumentation has developed into...
In the past decade, we have witnessed the rapid growth of the field of ultrafast electron microscopy...
Ultrafast electron microscopy (UEM) has been demonstrated as an effective table-top technique for im...
As an energy filter in transmission electron microscopy has improved the precision of structural det...
Ultrafast electron microscopy and diffraction are powerful techniques for the study of the time-reso...
The static structure of macromolecular assemblies can be mapped out with atomic-scale resolution by ...
AbstractPump–probe electron diffraction and ultrafast microscopy, based on laser excitation and prob...
