Abstract “Green” electronics are increasingly in demand to alleviate environmental pollution
caused by electronic wastes. Biomass materials derived from natural resources, such as …

Although paper electronics is a compelling concept, the large surface roughness and
opaqueness of most paper substrates has hindered its development from a dormant idea to …

The world in the 21st century is confronted with multifaceted challenges against rapid
climate change and continuous ecological disturbances caused by revolutionary socio …

Paper, one of the oldest materials for storage and exchange of human's information, has
been reinvented as a building component of electronic and optoelectronic devices over the …

Highly conductive ink with low sintering temperature is important for printed electronics on
paper substrate. Silver nanoparticles (Ag NPs) of different average radii ranging from 48 to …

In this article, we fabricated amorphous InSnO thin film transistors (TFTs) with exceedingly
high mobility and low thermal budget. The device is annealed only at a low temperature of …

Solution‐processed or printed n‐channel field‐effect transistors (FETs) with high
performance are not reported very often in the literature due to the scarcity of high‐mobility n …

Since 2010, vacuum‐processed oxide semiconductors have greatly improved with the
publication of more than 1,300 related papers. Although the number of researches on oxide …

Reusable and renewable electronics is an emerging field aimed at the development of
environmentally safe, disposable and biocompatible devices. Here, we demonstrate the …

Paper holds the promise to replace silicon substrates in applications like internet of things or
disposable electronics that require ultra-low-cost electronic components and an …