The quest for low power becomes highly compelling in newly emerging application areas related to wearable devices in the Internet of Things. Here, we report on a Schottky-barrier indium-gallium-zinc-oxide thin-film transistor operating in the deep subthreshold regime (i.e., near the OFF state) at low supply voltages (400) that was both bias and geometry independent. The transistor reported here is useful for sensor interface circuits in wearable devices where high current sensitivity and ultralow power are vital for battery-less operation
Printed and flexible circuitry has vast potential for novel applications in fields such as sensing a...
The use of thin-film transistors in liquid crystal display applications was commercialized about 30 ...
Overcoming the trade-offs among power consumption, fabrication cost, and signal amplification has be...
The quest for low power becomes highly compelling in newly emerging application areas related to wea...
Thin-film electronics has hugely benefitted from low-cost processes, large-area processability, and ...
In order to deliver billions of cost-effective sensors for Internet of Things applications, large ar...
The solution-based assembly of field-effect transistors using nanowire inks, processed at low temper...
We have optimized dihexylquaterthiophene-based thin film transistors for low-power consumption and h...
Thin insulating layers are used to modulate a depletion region at the source of a thin-film transist...
Thin insulating layers are used to modulate a depletion region at the source of a thin-film transist...
We report on the fabrication and characterization of Schottky barrier transistors on polycrystalline...
Over the last decade, novel approaches to explore low voltage flexible devices and low power flexibl...
Contact-controlled transistors are rapidly gaining popularity. However, simply using arectifying sou...
Ultralow-power electronics will expand the technological capability of handheld and wireless devices...
Oxide-based thin-film transistors (TFTs) with a lateral in-plane electrode are self-assembled on pap...
Printed and flexible circuitry has vast potential for novel applications in fields such as sensing a...
The use of thin-film transistors in liquid crystal display applications was commercialized about 30 ...
Overcoming the trade-offs among power consumption, fabrication cost, and signal amplification has be...
The quest for low power becomes highly compelling in newly emerging application areas related to wea...
Thin-film electronics has hugely benefitted from low-cost processes, large-area processability, and ...
In order to deliver billions of cost-effective sensors for Internet of Things applications, large ar...
The solution-based assembly of field-effect transistors using nanowire inks, processed at low temper...
We have optimized dihexylquaterthiophene-based thin film transistors for low-power consumption and h...
Thin insulating layers are used to modulate a depletion region at the source of a thin-film transist...
Thin insulating layers are used to modulate a depletion region at the source of a thin-film transist...
We report on the fabrication and characterization of Schottky barrier transistors on polycrystalline...
Over the last decade, novel approaches to explore low voltage flexible devices and low power flexibl...
Contact-controlled transistors are rapidly gaining popularity. However, simply using arectifying sou...
Ultralow-power electronics will expand the technological capability of handheld and wireless devices...
Oxide-based thin-film transistors (TFTs) with a lateral in-plane electrode are self-assembled on pap...
Printed and flexible circuitry has vast potential for novel applications in fields such as sensing a...
The use of thin-film transistors in liquid crystal display applications was commercialized about 30 ...
Overcoming the trade-offs among power consumption, fabrication cost, and signal amplification has be...