Add to ORKGWe present a structural and density-functional theory study of the interface of the quasi-twin-free grown three-dimensional topological insulator Bi2Te3 on Ge(111). Aberration-corrected scanning transmission electron microscopy and electron energy-loss spectroscopy in combination with first-principles calculations show that the weak van der Waals adhesion between the Bi2Te3 quintuple layer and Ge can be overcome by forming an additional Te layer at their interface. The first-principles calculations of the formation energy of the additional Te layer show it to be energetically favorable as a result of the strong hybridization between the Te and Ge
Binary bismuth chalcogenides, Bi2Se3 and Bi2Te3, have been extensively studied as reference topologi...
We report the formation of a bilayer Bi(111) ultrathin film, which is theoretically predicted to be ...
We present a nanoscale structural and density functional study of the Mn doped 3D topological insula...
We present a structural and density-functional theory study of the interface of the quasi-twin-free ...
We investigate the lattice and electronic structures of the bulk and surface of the prototypical lay...
We present a structural and density functional theory study of FexCu1-xSe within the three-dimension...
We present a structural and density functional theory study of FexCu1−xSe within the three-dimension...
We present a structural and density functional theory study of FexCu1−xSe within the three-dimension...
We present a combined theoretical and experimental study of the electronic structure of stoichiometr...
Topological insulators represent a paradigm shift in surface physics. The most extensively studied B...
By means of ab initio DFT calculation, we analyze the mechanism that drives the formation and evolut...
Heterostructures made from topological and magnetic insulators promise to form excellent platforms f...
Understanding how topologically protected surface states behave at surfaces and interfaces requires ...
Topological insulators are a new class of materials that are insulators in the bulk but have near ze...
We present a nanoscale structural and density functional study of the Mn doped 3D topological insula...
Binary bismuth chalcogenides, Bi2Se3 and Bi2Te3, have been extensively studied as reference topologi...
We report the formation of a bilayer Bi(111) ultrathin film, which is theoretically predicted to be ...
We present a nanoscale structural and density functional study of the Mn doped 3D topological insula...
We present a structural and density-functional theory study of the interface of the quasi-twin-free ...
We investigate the lattice and electronic structures of the bulk and surface of the prototypical lay...
We present a structural and density functional theory study of FexCu1-xSe within the three-dimension...
We present a structural and density functional theory study of FexCu1−xSe within the three-dimension...
We present a structural and density functional theory study of FexCu1−xSe within the three-dimension...
We present a combined theoretical and experimental study of the electronic structure of stoichiometr...
Topological insulators represent a paradigm shift in surface physics. The most extensively studied B...
By means of ab initio DFT calculation, we analyze the mechanism that drives the formation and evolut...
Heterostructures made from topological and magnetic insulators promise to form excellent platforms f...
Understanding how topologically protected surface states behave at surfaces and interfaces requires ...
Topological insulators are a new class of materials that are insulators in the bulk but have near ze...
We present a nanoscale structural and density functional study of the Mn doped 3D topological insula...
Binary bismuth chalcogenides, Bi2Se3 and Bi2Te3, have been extensively studied as reference topologi...
We report the formation of a bilayer Bi(111) ultrathin film, which is theoretically predicted to be ...
We present a nanoscale structural and density functional study of the Mn doped 3D topological insula...