The ability to process and dimensionally scale field-effect transistors with and on paper and to integrate them as a core component for low-power-consumption analog and digital circuits is demonstrated. Low-temperature-processed p- and n-channel integrated oxide thin-film transistors in the complementary metal oxide semiconductor (CMOS) inverter architecture are seamlessly layered on mechanically flexible, low-cost, recyclable paper substrates. The possibility of building these circuits using low-temperature processes opens the door to new applications ranging from smart labels and sensors on clothing and packaging to electronic displays printed on paper pages for use in newspapers, magazines, books, signs, and advertising billboards. Becau...
Integrating electronic applications with paper, placed next to or below printed images or graphics, ...
Within every process of electronic device fabrication and subsequent device use, there exists an inh...
In this work, a completely scalable integration process is presented for organic-inorganic complemen...
Paper is drawing considerable attention as a possible alternative to plastic for the development of ...
Over the last decade, novel approaches to explore low voltage flexible devices and low power flexibl...
Oxide-based thin-film transistors (TFTs) with a lateral in-plane electrode are self-assembled on pap...
With the current advances in semiconductor physics, material science, and material engineering, some...
The use of thin-film transistors in liquid crystal display applications was commercialized about 30 ...
We report on the development of the 3-layer-printed organic thin-film transistors (OTFTs) and invert...
The convergence of printing and microelectronic technologies, often called printed electronics, is b...
Critical prerequisites for solution-processed/printed field-effect transistors (FETs) and logics are...
The use of disposable recyclable, eco-friendly, sustainable and low-cost devices with multiple funct...
Flexible electronics are emerging as an alternative to conventional Si electronics for smart sensors...
Solution processed/printed electronics have gained a lot of attention in recent years because they a...
Printing of electronics is pursued as a low-cost alternative to conventional manufacturing processes...
Integrating electronic applications with paper, placed next to or below printed images or graphics, ...
Within every process of electronic device fabrication and subsequent device use, there exists an inh...
In this work, a completely scalable integration process is presented for organic-inorganic complemen...
Paper is drawing considerable attention as a possible alternative to plastic for the development of ...
Over the last decade, novel approaches to explore low voltage flexible devices and low power flexibl...
Oxide-based thin-film transistors (TFTs) with a lateral in-plane electrode are self-assembled on pap...
With the current advances in semiconductor physics, material science, and material engineering, some...
The use of thin-film transistors in liquid crystal display applications was commercialized about 30 ...
We report on the development of the 3-layer-printed organic thin-film transistors (OTFTs) and invert...
The convergence of printing and microelectronic technologies, often called printed electronics, is b...
Critical prerequisites for solution-processed/printed field-effect transistors (FETs) and logics are...
The use of disposable recyclable, eco-friendly, sustainable and low-cost devices with multiple funct...
Flexible electronics are emerging as an alternative to conventional Si electronics for smart sensors...
Solution processed/printed electronics have gained a lot of attention in recent years because they a...
Printing of electronics is pursued as a low-cost alternative to conventional manufacturing processes...
Integrating electronic applications with paper, placed next to or below printed images or graphics, ...
Within every process of electronic device fabrication and subsequent device use, there exists an inh...
In this work, a completely scalable integration process is presented for organic-inorganic complemen...