Transparent metal oxides are one of the most promising material systems for thin film flexible electronics due to their unique balance of optical transparency and high electron mobility. Rapid progress in the field of solution-processed metal oxides in the last decade has established them as the leading material system for thin film transistors. Fully-integrating metal oxide materials with printing technologies could enable a wide range of applications such as flexible displays, imaging systems, resorbable bioelectronics, and low-power sensors that remain uneconomical or unmanufacturable with incumbent technologies. This thesis contributes materials and methods that can advance the scalable fabrication of transparent thin film transistors b...
As demands for high pixel densities and wearable forms of displays increase, high-resolution printin...
This is the publisher’s final pdf. The published article is copyrighted by the author(s) and publish...
Printed electronics is a novel microfabrication paradigm that is particularly well suited for fabric...
Compared to conventional amorphous silicon (a-Si) TFTs, amorphous metal oxide TFTs have superior dev...
Compared to conventional amorphous silicon (a-Si) TFTs, amorphous metal oxide TFTs have superior dev...
The field of low-cost and solution-processed electronics has experienced a steady increase in resear...
Metal oxides are well known high mobility, and trans-parent conducting materials as SnO2, In2O3 and ...
International audienceNowadays, conductive and transparent materials are limited. The main material...
International audienceNowadays, conductive and transparent materials are limited. The main material...
International audienceNowadays, conductive and transparent materials are limited. The main material...
The ink-jet printing technology is one of the most promising alternatives to photolithographic and m...
International audienceNowadays, conductive and transparent materials are limited. The main material...
International audienceNowadays, conductive and transparent materials are limited. The main material...
Organic material deposition by gravure printing is a promising pathway for the realization of large ...
Organic material deposition by gravure printing is a promising pathway for the realization of large ...
As demands for high pixel densities and wearable forms of displays increase, high-resolution printin...
This is the publisher’s final pdf. The published article is copyrighted by the author(s) and publish...
Printed electronics is a novel microfabrication paradigm that is particularly well suited for fabric...
Compared to conventional amorphous silicon (a-Si) TFTs, amorphous metal oxide TFTs have superior dev...
Compared to conventional amorphous silicon (a-Si) TFTs, amorphous metal oxide TFTs have superior dev...
The field of low-cost and solution-processed electronics has experienced a steady increase in resear...
Metal oxides are well known high mobility, and trans-parent conducting materials as SnO2, In2O3 and ...
International audienceNowadays, conductive and transparent materials are limited. The main material...
International audienceNowadays, conductive and transparent materials are limited. The main material...
International audienceNowadays, conductive and transparent materials are limited. The main material...
The ink-jet printing technology is one of the most promising alternatives to photolithographic and m...
International audienceNowadays, conductive and transparent materials are limited. The main material...
International audienceNowadays, conductive and transparent materials are limited. The main material...
Organic material deposition by gravure printing is a promising pathway for the realization of large ...
Organic material deposition by gravure printing is a promising pathway for the realization of large ...
As demands for high pixel densities and wearable forms of displays increase, high-resolution printin...
This is the publisher’s final pdf. The published article is copyrighted by the author(s) and publish...
Printed electronics is a novel microfabrication paradigm that is particularly well suited for fabric...