Add to ORKGKnowing the three-dimensional structural information of materials at the nanometer scale is essential to understanding complex material properties. Electron tomography retrieves three-dimensional structural information using a tilt series of two-dimensional images. In this paper, we report an alternative combination of electron ptychography with the inverse multislice method. We demonstrate depth sectioning of a nanostructured material into slices with 0.34 nm lateral resolution and with a corresponding depth resolution of about 24-30 nm. This three-dimensional imaging method has potential applications for the three-dimensional structure determination of a range of objects, ranging from inorganic nanostructures to biological macromolecules....
X-rays allow to non-destructively investigate biological, chemical or physical processes at the nano...
We propose algorithms based on an optimisation method for inverse multislice ptychography in, e.g. e...
Electron tomography (ET) is a rapidly developing technique that is used to acquire the reconstructed...
Knowing the three-dimensional structural information of materials at the nanometer scale is essentia...
Electron microscopy has found wide application in material science and biology with the nanometer / ...
Electron tomography was originally developed in 1968, and has been primarily applied to determine th...
A three-dimensional (3D) study of multiphase nanostructures by chemically selective electron tomogra...
Three-dimensional (3D) structural analysis is essential to understand the relationship between the s...
This work focus on the efforts made to obtain three-dimensional local information at atomic resoluti...
Transmission electron microscopy is a powerful imaging tool that has found broad application in mate...
Over the last two decades, electron tomography, the combination of tomographic methods and transmiss...
Electron tomography is used in both materials science and structural biology to image features well ...
Three-dimensional (3D) tomography using electrons and x-rays has pushed and expanded our understandi...
Through numerical simulations, we demonstrate the combination of ptychography and atomic electron to...
Transmission electron microscopy (TEM) is a potent technique for the determination of three-dimensio...
X-rays allow to non-destructively investigate biological, chemical or physical processes at the nano...
We propose algorithms based on an optimisation method for inverse multislice ptychography in, e.g. e...
Electron tomography (ET) is a rapidly developing technique that is used to acquire the reconstructed...
Knowing the three-dimensional structural information of materials at the nanometer scale is essentia...
Electron microscopy has found wide application in material science and biology with the nanometer / ...
Electron tomography was originally developed in 1968, and has been primarily applied to determine th...
A three-dimensional (3D) study of multiphase nanostructures by chemically selective electron tomogra...
Three-dimensional (3D) structural analysis is essential to understand the relationship between the s...
This work focus on the efforts made to obtain three-dimensional local information at atomic resoluti...
Transmission electron microscopy is a powerful imaging tool that has found broad application in mate...
Over the last two decades, electron tomography, the combination of tomographic methods and transmiss...
Electron tomography is used in both materials science and structural biology to image features well ...
Three-dimensional (3D) tomography using electrons and x-rays has pushed and expanded our understandi...
Through numerical simulations, we demonstrate the combination of ptychography and atomic electron to...
Transmission electron microscopy (TEM) is a potent technique for the determination of three-dimensio...
X-rays allow to non-destructively investigate biological, chemical or physical processes at the nano...
We propose algorithms based on an optimisation method for inverse multislice ptychography in, e.g. e...
Electron tomography (ET) is a rapidly developing technique that is used to acquire the reconstructed...