Add to ORKGWe report the realization of novel symmetry-protected Dirac fermions in a surface-doped two-dimensional (2D) semiconductor, black phosphorus. The widely tunable band gap of black phosphorus by the surface Stark effect is employed to achieve a surprisingly large band inversion up to∼0.6 eV . High-resolution angle-resolved photoemission spectra directly reveal the pair creation of Dirac points and their movement along the axis of the glide-mirror symmetry. Unlike graphene, the Dirac point of black phosphorus is stable, as protected by space-time inversion symmetry, even in the presence of spin-orbit coupling. Our results establish black phosphorus in the inverted regime as a simple model system of 2D symmetry-protected (topological) Dirac sem...
Black phosphorous (BP) is a layered semiconductor with high carrier mobility, anisotropic optical re...
Proceeding the current interest in layered structure for electronic and optoelectronic applications,...
The isolation of graphene in 2004 and the subsequent characterisation of its many remarkable propert...
We report a Cs-doping-induced band inversion and the direct observation of a surface resonance state...
Very recently, in spite of various efforts in searching for two-dimensional topological Dirac semime...
International audienceElectrostatic gating or alkali metal evaporation can be successfully employed ...
Thin flakes of black phosphorus (BP) are a two-dimensional (2D) semiconductor whose energy gap is pr...
We present an overview on the electronic band structure of surface-doped black phosphorus. Angle res...
Thin flakes of black phosphorus (BP) are a two-dimensional (2D) semiconductor whose energy gap is pr...
Recently, a new semiconducting 2D material, black phosphorus, has piqued the interest of research gr...
International audience2D materials beyond graphene and in particular 2D semiconductors haveraised in...
Black Phosphorus (bP) is the most stable allotrope of phosphorus, first synthesized in 1914 by Brid...
Black phosphorous (BP) is a layered semiconductor with high carrier mobility, anisotropic optical re...
For decades, two-dimensional electron gases (2DEG) have allowed important experimental discoveries(1...
The first Weyl semimetal was recently discovered in the NbP class of compounds. Although the topolog...
Black phosphorous (BP) is a layered semiconductor with high carrier mobility, anisotropic optical re...
Proceeding the current interest in layered structure for electronic and optoelectronic applications,...
The isolation of graphene in 2004 and the subsequent characterisation of its many remarkable propert...
We report a Cs-doping-induced band inversion and the direct observation of a surface resonance state...
Very recently, in spite of various efforts in searching for two-dimensional topological Dirac semime...
International audienceElectrostatic gating or alkali metal evaporation can be successfully employed ...
Thin flakes of black phosphorus (BP) are a two-dimensional (2D) semiconductor whose energy gap is pr...
We present an overview on the electronic band structure of surface-doped black phosphorus. Angle res...
Thin flakes of black phosphorus (BP) are a two-dimensional (2D) semiconductor whose energy gap is pr...
Recently, a new semiconducting 2D material, black phosphorus, has piqued the interest of research gr...
International audience2D materials beyond graphene and in particular 2D semiconductors haveraised in...
Black Phosphorus (bP) is the most stable allotrope of phosphorus, first synthesized in 1914 by Brid...
Black phosphorous (BP) is a layered semiconductor with high carrier mobility, anisotropic optical re...
For decades, two-dimensional electron gases (2DEG) have allowed important experimental discoveries(1...
The first Weyl semimetal was recently discovered in the NbP class of compounds. Although the topolog...
Black phosphorous (BP) is a layered semiconductor with high carrier mobility, anisotropic optical re...
Proceeding the current interest in layered structure for electronic and optoelectronic applications,...
The isolation of graphene in 2004 and the subsequent characterisation of its many remarkable propert...