In this article, we report on high-performance solution-based n-type metal oxide TFTs processed directly on polyimide foil and annealed at 250°C. Saturation mobilities exceeding 2 cm2/(Vs) and Ion/I off ratios beyond 108 have been achieved. Using these oxide n-TFTs, fast and low-voltage flexible circuitry is presented. Furthermore, a complete 8-bit RFID transponder chip, containing 294 oxide n-TFTs has been fabricated. Both high-speed and low-voltage operation makes the presented oxide n-TFT technology suited for both the pixel driving and embedded line-drive circuitry at the borders of flexible AMOLED displays
The convergence of printing and microelectronic technologies, often called printed electronics, is b...
© 2019 IEEE. Thin-film transistor (TFT) technologies have long been used predominantly for display f...
The realization of fast, robust and low-power integrated circuits on plastic foil are hard to achiev...
High-performance solution-based n-type metal oxide thin-film transistors (TFTs), fabricated directly...
The field of flexible electronics has rapidly expanded over the last decades, pioneering novel appli...
Thanks to the extraordinary advances flexible electronics have experienced over the last decades, ap...
In this article, we report on high-performance solution-based n-type metal oxide TFTs processed dire...
Oxide semiconductors have drawn much attention in recent years due to their outstanding electrical p...
Oxide semiconductors have drawn much attention in recent years due to their outstanding electrical p...
In this work, a completely scalable integration process is presented for organic-inorganic complemen...
As demands for high pixel densities and wearable forms of displays increase, high-resolution printin...
We discuss in this paper the present state and future perspectives of thin-film oxide transistors fo...
Multifunctional flexible electronics are booming in many ways. Flexible electronics have opened up a...
The realization of fast, robust and low-power integrated circuits on plastic foil are hard to achiev...
Printed and flexible circuitry has vast potential for novel applications in fields such as sensing a...
The convergence of printing and microelectronic technologies, often called printed electronics, is b...
© 2019 IEEE. Thin-film transistor (TFT) technologies have long been used predominantly for display f...
The realization of fast, robust and low-power integrated circuits on plastic foil are hard to achiev...
High-performance solution-based n-type metal oxide thin-film transistors (TFTs), fabricated directly...
The field of flexible electronics has rapidly expanded over the last decades, pioneering novel appli...
Thanks to the extraordinary advances flexible electronics have experienced over the last decades, ap...
In this article, we report on high-performance solution-based n-type metal oxide TFTs processed dire...
Oxide semiconductors have drawn much attention in recent years due to their outstanding electrical p...
Oxide semiconductors have drawn much attention in recent years due to their outstanding electrical p...
In this work, a completely scalable integration process is presented for organic-inorganic complemen...
As demands for high pixel densities and wearable forms of displays increase, high-resolution printin...
We discuss in this paper the present state and future perspectives of thin-film oxide transistors fo...
Multifunctional flexible electronics are booming in many ways. Flexible electronics have opened up a...
The realization of fast, robust and low-power integrated circuits on plastic foil are hard to achiev...
Printed and flexible circuitry has vast potential for novel applications in fields such as sensing a...
The convergence of printing and microelectronic technologies, often called printed electronics, is b...
© 2019 IEEE. Thin-film transistor (TFT) technologies have long been used predominantly for display f...
The realization of fast, robust and low-power integrated circuits on plastic foil are hard to achiev...