Add to ORKGAbstract We presented an attempt to modulate the electrical property of tellurium nanowires (TeNWs) via a surface charge transfer doping method. The TeNWs with length of several tens of micrometers and diameters of 20–50 nm were prepared by a simple hydrothermal method at 160 C for 20 h. High-resolution transmission electron microscope image combined with selected area electron diffraction pattern shows the single-crystal nature and a growth direction along [001]. Electrical analysis of the individual TeNW-based field effect transistor before and after surface coating reveals that MoO3 and CuPc thin layer coating can greatly enhance both electrical conductivities and hole concentrations. Such a surface hole injection effect, according to th...
The photocurrent in tellurium nanowire (Te NW) exhibits a subtle influence by many extrinsic factors...
ABSTRACT: We present a design principle to develop new categories of telluride-based thermoelectric ...
Tellurium oxide (TeO(2)) nanowires were synthesized by the thermal evaporation of tellurium metal in...
We report on the surface transfer p-type doping of germanium nanowires (GeNWs) via MoO3 thin film de...
There is a strong interest in thermoelectric materials for energy production and savings. The proper...
One-dimensional tellurium nanostructures can exhibit distinct electronic properties from those seen ...
Thermoelectric devices possess enormous potential to reshape the global energy landscape by converti...
We herein report a gas-solid transformation mechanism for the surfactant-free synthesis of Te NWs at...
Currently, metal oxides and chalcogenide nanostructures are the most visible energy sources. Numerou...
Organic–inorganic hybrids offer great promise as solution-processable thermoelectric materials. Howe...
Supercritical fluid electrodeposition (SCFED) was employed for rapid deposition (2.5 μm min−1) of te...
Semiconductor nanowires have emerged as versatile components in superconducting hybrid devices forMa...
Tellurium, a p-type semiconductor with a narrow bandgap of 0.35eV, has a preferential growth in one ...
Tellurium (Te), the most metallic semiconductor, has been widely explored in recent decades owing to...
The purpose of this project is to understand the electrical conductivity and infrared absorption spe...
The photocurrent in tellurium nanowire (Te NW) exhibits a subtle influence by many extrinsic factors...
ABSTRACT: We present a design principle to develop new categories of telluride-based thermoelectric ...
Tellurium oxide (TeO(2)) nanowires were synthesized by the thermal evaporation of tellurium metal in...
We report on the surface transfer p-type doping of germanium nanowires (GeNWs) via MoO3 thin film de...
There is a strong interest in thermoelectric materials for energy production and savings. The proper...
One-dimensional tellurium nanostructures can exhibit distinct electronic properties from those seen ...
Thermoelectric devices possess enormous potential to reshape the global energy landscape by converti...
We herein report a gas-solid transformation mechanism for the surfactant-free synthesis of Te NWs at...
Currently, metal oxides and chalcogenide nanostructures are the most visible energy sources. Numerou...
Organic–inorganic hybrids offer great promise as solution-processable thermoelectric materials. Howe...
Supercritical fluid electrodeposition (SCFED) was employed for rapid deposition (2.5 μm min−1) of te...
Semiconductor nanowires have emerged as versatile components in superconducting hybrid devices forMa...
Tellurium, a p-type semiconductor with a narrow bandgap of 0.35eV, has a preferential growth in one ...
Tellurium (Te), the most metallic semiconductor, has been widely explored in recent decades owing to...
The purpose of this project is to understand the electrical conductivity and infrared absorption spe...
The photocurrent in tellurium nanowire (Te NW) exhibits a subtle influence by many extrinsic factors...
ABSTRACT: We present a design principle to develop new categories of telluride-based thermoelectric ...
Tellurium oxide (TeO(2)) nanowires were synthesized by the thermal evaporation of tellurium metal in...