Add to ORKGAdvances in electron microscopy have enabled visualizations of the three-dimensional (3D) atom arrangements in nano-scale objects. The observations are, however, prone to electron-beam-induced object alterations, so tracking of single atoms in space and time becomes key to unravel inherent structures and properties. Here, we introduce an analytical approach to quantitatively account for atom dynamics in 3D atomic-resolution imaging. The approach is showcased for a Co-Mo-S nanocrystal by analysis of time-resolved in-line holograms achieving ~1.5 Å resolution in 3D. The analysis reveals a decay of phase image contrast towards the nanocrystal edges and meta-stable edge motifs with crystallographic dependence. These findings are explained by be...
Knowledge about the synthesis, growth mechanisms, and physical properties of colloidal nanoparticles...
Despite decades of research, the ultimate goal of nanotechnology—top-down manipulation of individual...
It is now established that the 3D structure of homogeneous nanocrystals can be recovered from in-lin...
The authors introduce an analytical approach for quantitative analysis of 3D atom dynamics during el...
This article summarizes core aspects of beam-sample interactions in research that aims at exploiting...
Understanding light–matter interactions in nanomaterials is crucial for optoelectronic, photonic, an...
This article summarizes core aspects of beam-sample interactions in research that aims at exploiting...
Nanocrystallography has transformed our ability to interrogate the atomic structures of proteins, pe...
We consider the problem of reconstructing a nanocrystal at atomic resolution from electron microscop...
Achievement of atomic-resolution electron-beam tomography will allow determination of the three-dime...
Atomic resolution imaging of light elements in electron-transparent materials has long been a challe...
Atoms and their arrangement in materials have become a central focus in the era of nanoscience. Mate...
The development of new nanocrystals with outstanding physico-chemical properties requires a full thr...
Atomic resolution imaging of light elements in electron-transparent materials has long been a challe...
The 3D atomic arrangements of materials determine the free energy landscape, thus governing the phys...
Knowledge about the synthesis, growth mechanisms, and physical properties of colloidal nanoparticles...
Despite decades of research, the ultimate goal of nanotechnology—top-down manipulation of individual...
It is now established that the 3D structure of homogeneous nanocrystals can be recovered from in-lin...
The authors introduce an analytical approach for quantitative analysis of 3D atom dynamics during el...
This article summarizes core aspects of beam-sample interactions in research that aims at exploiting...
Understanding light–matter interactions in nanomaterials is crucial for optoelectronic, photonic, an...
This article summarizes core aspects of beam-sample interactions in research that aims at exploiting...
Nanocrystallography has transformed our ability to interrogate the atomic structures of proteins, pe...
We consider the problem of reconstructing a nanocrystal at atomic resolution from electron microscop...
Achievement of atomic-resolution electron-beam tomography will allow determination of the three-dime...
Atomic resolution imaging of light elements in electron-transparent materials has long been a challe...
Atoms and their arrangement in materials have become a central focus in the era of nanoscience. Mate...
The development of new nanocrystals with outstanding physico-chemical properties requires a full thr...
Atomic resolution imaging of light elements in electron-transparent materials has long been a challe...
The 3D atomic arrangements of materials determine the free energy landscape, thus governing the phys...
Knowledge about the synthesis, growth mechanisms, and physical properties of colloidal nanoparticles...
Despite decades of research, the ultimate goal of nanotechnology—top-down manipulation of individual...
It is now established that the 3D structure of homogeneous nanocrystals can be recovered from in-lin...