The ability to form arbitrary 3D structures provides the next level of complexity and a greater
degree of freedom in the design of electronic devices. Since recent progress in electronics …

Printed electronics will be essential in the implementation of next-generation electronic
devices, because printing facilitates fabrication of devices on various rigid, thin, or flexible …

Oxide semiconductor-based thin-film transistor (oxide-TFT) technology have gained
significant attention since the innovation of n-channel oxide-TFT using ZnO and amorphous …

High-resolution flexible electronic devices are widely used in the fields of soft robotics, smart
human-machine interaction, and intelligent e-healthcare monitoring due to their mechanical …

Electrohydrodynamic jet (e‐jet) printing technology overcomes some limitations such as the
viscosity and resolution of the traditional ink‐jet printing by breaking surface tension of the …

Advanced micro/nano-flexible sensors, displays, electronic skins, and other related devices
provide considerable benefits compared to traditional technologies, aiding in the …

Metallic additive manufacturing (AM) techniques have substantially liberated the
architectural design philosophy of macro/mesoscale functional structures from ease of …

Technologies for human–machine interactions are booming now. In order to achieve
multifunctional sensing abilities of electronic skins, further developments of various sensors …

Amorphous indium–gallium–zinc oxide (IGZO)‐based optical synaptic transistor using
visible light as the signal that shows a clear difference between long‐term memory (LTM) …

Flexible thin-film transistors (f-TFTs) not only attract research attention but also possess
significant application potential in various fields, such as consumer electronics, human …