Add to ORKGStructure elucidation is fundamental to understanding the chemical and physical properties of a material. Three-dimensional electron diffraction (3D ED) has shown great power for structure determination of nanometer- or submicrometer-sized crystals that are either too small or too complex for X-ray diffraction. 3D ED can be applied to a wide range of crystalline materials from inorganic materials, small organic molecules, to macromolecules. In this thesis, continuous rotation electron diffraction (cRED), also known as micro-crystal electron diffraction (MicroED) in macromolecular crystallography, has been applied for the determination of interesting novel crystal structures. New methods and protocols have been developed to push the current ...
Electron crystallography has recently become very successful for structural studies of materials wit...
The structural analysis serves as a bridge to link the structure of materials to their properties. R...
3D electron diffraction allows data collection on nanocrystalline domains, which can be used as kine...
Structure elucidation is fundamental to understanding the chemical and physical properties of a mate...
Knowing the atomic crystal structures of ordered porous solids is essential in understanding their b...
The crystal structure determines the physical properties of a material. The structure can be analyse...
Electron crystallography has been proven to be effective for structure determination of nano- and mi...
Electron crystallography is powerful for determination of complex structures. The newly-developed 3D...
Crystallography of nanocrystals is a challenge for both organic and macromolecular structure determi...
New perspectives have been opened in recent years on the crystallographic analysis of submicrometric...
Over the past decade, electron diffraction methods have aroused more and more interest for micro-cry...
Electron crystallography has evolved as a powerful method for structural characterization of a wide ...
Traditional techniques for structural analysis, such as X-ray crystallography and Nuclear Magnetic R...
Electron crystallography has recently become very successful for structural studies of materials wit...
The structural analysis serves as a bridge to link the structure of materials to their properties. R...
3D electron diffraction allows data collection on nanocrystalline domains, which can be used as kine...
Structure elucidation is fundamental to understanding the chemical and physical properties of a mate...
Knowing the atomic crystal structures of ordered porous solids is essential in understanding their b...
The crystal structure determines the physical properties of a material. The structure can be analyse...
Electron crystallography has been proven to be effective for structure determination of nano- and mi...
Electron crystallography is powerful for determination of complex structures. The newly-developed 3D...
Crystallography of nanocrystals is a challenge for both organic and macromolecular structure determi...
New perspectives have been opened in recent years on the crystallographic analysis of submicrometric...
Over the past decade, electron diffraction methods have aroused more and more interest for micro-cry...
Electron crystallography has evolved as a powerful method for structural characterization of a wide ...
Traditional techniques for structural analysis, such as X-ray crystallography and Nuclear Magnetic R...
Electron crystallography has recently become very successful for structural studies of materials wit...
The structural analysis serves as a bridge to link the structure of materials to their properties. R...
3D electron diffraction allows data collection on nanocrystalline domains, which can be used as kine...