Scanning atomic electron tomography measurements reveal the 3D local structure around single dopant atoms in 2D transition metal dichalcogenides, providing essential information to investigate and predict their electronic properties
Through numerical simulations, we demonstrate the combination of ptychography and atomic electron to...
Layered transition metal dichalcogenides (TMDs) offer monolayer 2D systems with diverse properties t...
Defects in materials give rise to fluctuations in electrostatic fields that reflect the local charge...
© 2021 The Authors. Advanced Science published by Wiley-VCH GmbHAtomic dopants and defects play a cr...
Over the last two decades, electron tomography, the combination of tomographic methods and transmiss...
The physical properties of semiconductors are controlled by chemical doping. In oxide semiconductors...
Crystallography has been fundamental to the development of many fields of science over the last cent...
Abstract Atomic dopants and defects play a crucial role in creating new functionalities in 2D transi...
The 3D atomic arrangements of materials determine the free energy landscape, thus governing the phys...
Transmission electron microscopy (TEM) of two-dimensional materials (2D) offers an unprecedented opp...
The unusual properties of 2D materials directly rely on the atomic structure and defects of the mate...
Crystallography has been leading the way for the whole 20th century in getting a three-dimensional p...
Atomic electron tomography (AET) has become a powerful tool for atomic-scale structural characteriza...
Crystallography, the primary method for determining the 3D atomic positions in crystals, has been fu...
Resumen del trabajo presentado al 1st Workshop Spain-Taiwan: "2D Materials and Interfaces for Spintr...
Through numerical simulations, we demonstrate the combination of ptychography and atomic electron to...
Layered transition metal dichalcogenides (TMDs) offer monolayer 2D systems with diverse properties t...
Defects in materials give rise to fluctuations in electrostatic fields that reflect the local charge...
© 2021 The Authors. Advanced Science published by Wiley-VCH GmbHAtomic dopants and defects play a cr...
Over the last two decades, electron tomography, the combination of tomographic methods and transmiss...
The physical properties of semiconductors are controlled by chemical doping. In oxide semiconductors...
Crystallography has been fundamental to the development of many fields of science over the last cent...
Abstract Atomic dopants and defects play a crucial role in creating new functionalities in 2D transi...
The 3D atomic arrangements of materials determine the free energy landscape, thus governing the phys...
Transmission electron microscopy (TEM) of two-dimensional materials (2D) offers an unprecedented opp...
The unusual properties of 2D materials directly rely on the atomic structure and defects of the mate...
Crystallography has been leading the way for the whole 20th century in getting a three-dimensional p...
Atomic electron tomography (AET) has become a powerful tool for atomic-scale structural characteriza...
Crystallography, the primary method for determining the 3D atomic positions in crystals, has been fu...
Resumen del trabajo presentado al 1st Workshop Spain-Taiwan: "2D Materials and Interfaces for Spintr...
Through numerical simulations, we demonstrate the combination of ptychography and atomic electron to...
Layered transition metal dichalcogenides (TMDs) offer monolayer 2D systems with diverse properties t...
Defects in materials give rise to fluctuations in electrostatic fields that reflect the local charge...