Phosphorene, a elemental 2D material, which is the monolayer of black phosphorus, has been mechanically exfoliated recently. In its bulk form, black phosphorus shows high carrier mobility (∼10 000 cm<sup>2</sup>/V·s) and a ∼0.3 eV direct band gap. Well-behaved p-type field-effect transistors with mobilities of up to 1000 cm<sup>2</sup>/V·s, as well as phototransistors, have been demonstrated on few-layer black phosphorus, showing its promise for electronics and optoelectronics applications due to its high hole mobility and thickness-dependent direct band gap. However, p–n junctions, the basic building blocks of modern electronic and optoelectronic devices, have not yet been realized based on black phosphorus. In this paper, we demonstrate a...
We report the fabrication, electrical, and optical characterizations of few-layered black phosphorus...
Layered heterojunctions are widely applied as fundamental building blocks for semiconductor devices....
Black phosphorus (BP) has emerged as an exciting 2D material for optics, photonics, and electronics....
Heterostructures comprising two-dimensional (2D) semiconductors fabricated by individual stacking ex...
Owing to its high carrier mobility and thickness-tunable direct band gap, black phosphorus emerges a...
This study used a spatially controlled boron-doping technique that enables a p–n junction diode to b...
Owing to its high carrier mobility and thickness-tunable direct band gap, black phosphorus emerges a...
The broken-gap (type III) van der Waals heterojunction is of particular interest, as there is no ove...
Black phosphorene (BP), a newly discovered elemental two-dimensional material, is attractive for opt...
Owing to its high carrier mobility and thickness-tunable direct band gap, black phosphorous emerges ...
Black phosphorus (BP)-based heterostructure with tunable band offset has been proven to be promising...
We introduce the 2D counterpart of layered black phosphorus, which we call phosphorene, as an unexpl...
The p–n junction is the functional element of many electronic and optoelectronic devices, including ...
There have been a few studies of heterojunctions composed of two-dimensional transition-metal dichal...
Few-layer black phosphorus, a new elemental two-dimensional (2D) material recently isolated by mecha...
We report the fabrication, electrical, and optical characterizations of few-layered black phosphorus...
Layered heterojunctions are widely applied as fundamental building blocks for semiconductor devices....
Black phosphorus (BP) has emerged as an exciting 2D material for optics, photonics, and electronics....
Heterostructures comprising two-dimensional (2D) semiconductors fabricated by individual stacking ex...
Owing to its high carrier mobility and thickness-tunable direct band gap, black phosphorus emerges a...
This study used a spatially controlled boron-doping technique that enables a p–n junction diode to b...
Owing to its high carrier mobility and thickness-tunable direct band gap, black phosphorus emerges a...
The broken-gap (type III) van der Waals heterojunction is of particular interest, as there is no ove...
Black phosphorene (BP), a newly discovered elemental two-dimensional material, is attractive for opt...
Owing to its high carrier mobility and thickness-tunable direct band gap, black phosphorous emerges ...
Black phosphorus (BP)-based heterostructure with tunable band offset has been proven to be promising...
We introduce the 2D counterpart of layered black phosphorus, which we call phosphorene, as an unexpl...
The p–n junction is the functional element of many electronic and optoelectronic devices, including ...
There have been a few studies of heterojunctions composed of two-dimensional transition-metal dichal...
Few-layer black phosphorus, a new elemental two-dimensional (2D) material recently isolated by mecha...
We report the fabrication, electrical, and optical characterizations of few-layered black phosphorus...
Layered heterojunctions are widely applied as fundamental building blocks for semiconductor devices....
Black phosphorus (BP) has emerged as an exciting 2D material for optics, photonics, and electronics....