Add to ORKGTransmission Electron Microscopy evolves rapidly as a primary tool to investigate nano structures on a truly atomic level. Its resolution reaches into the sub Angstrom region by now. Together with a better correction of lens aberrations, sensitivities are drastically enhanced. Utilizing advanced electron microscopes, it is feasible to promote experiments that aim to detect single atoms. This enables local investigations of non-stoichiometry. This paper reviews the current state-of-the-art
We describe a type of scanning electron microscope that works by directly imaging the electron field...
Spectacular advances in electromagnetic lens design conquer spherical aberration and push image reso...
Over the last decade, scanning transmission electron microscopy has become one of the most powerful ...
Transmission Electron Microscopy evolves rapidly as a primary tool to investigate nano structures o...
Abstract: The ability of electron microscopes to analyze all the atoms in individual nanostructures ...
The field of atomic-resolution transmission electron microscopy and its application to materials sci...
Seventy-five years after its invention, transmission electron microscopy has taken a great step forw...
Transmission electron microscopy is an indispensable tool in modern materials science. It enables th...
In this chapter, recent advances in scanning/transmission electron microscopic techniques and their ...
We describe a new type of scanning electron microscope which works by directly imaging the electron ...
Abstract Scanning transmission electron microscopy (STEM) has advanced rapidly in the last decade th...
Transmission electron microscopy is an extremely powerful technique for direct characterization of l...
This chapter examines some of the latest developments in examining nano-structured materials. It out...
For an improved exploration of the nanoworld at the atomic level, the implementation of various spec...
Detectors are revolutionising possibilities in scanning transmission electron microscopy, because of...
We describe a type of scanning electron microscope that works by directly imaging the electron field...
Spectacular advances in electromagnetic lens design conquer spherical aberration and push image reso...
Over the last decade, scanning transmission electron microscopy has become one of the most powerful ...
Transmission Electron Microscopy evolves rapidly as a primary tool to investigate nano structures o...
Abstract: The ability of electron microscopes to analyze all the atoms in individual nanostructures ...
The field of atomic-resolution transmission electron microscopy and its application to materials sci...
Seventy-five years after its invention, transmission electron microscopy has taken a great step forw...
Transmission electron microscopy is an indispensable tool in modern materials science. It enables th...
In this chapter, recent advances in scanning/transmission electron microscopic techniques and their ...
We describe a new type of scanning electron microscope which works by directly imaging the electron ...
Abstract Scanning transmission electron microscopy (STEM) has advanced rapidly in the last decade th...
Transmission electron microscopy is an extremely powerful technique for direct characterization of l...
This chapter examines some of the latest developments in examining nano-structured materials. It out...
For an improved exploration of the nanoworld at the atomic level, the implementation of various spec...
Detectors are revolutionising possibilities in scanning transmission electron microscopy, because of...
We describe a type of scanning electron microscope that works by directly imaging the electron field...
Spectacular advances in electromagnetic lens design conquer spherical aberration and push image reso...
Over the last decade, scanning transmission electron microscopy has become one of the most powerful ...