Electrohydrodynamic (EHD) printing technique, which deposits micro/nanostructures
through high electric force, has recently attracted significant research interest owing to their …

Three dimensional printing (3DP), or additive manufacturing, is an exponentially growing
process in the fabrication of various technologies with applications in sectors such as …

Abstracts Flexible and breathable porous pressure sensors are gaining attention due to their
potential in wearable devices for human motion monitoring. The controllable deposition and …

Microfluidics, with its remarkable capacity to manipulate fluids and droplets at the
microscale, has emerged as a powerful platform in numerous fields. In contrast to …

As an emerging new manufacturing technology, Three-dimensional (3D) bioprinting
provides the potential for the biomimetic construction of multifaceted and intricate …

Electrohydrodynamics (EHD) refers to the interaction of electrical forces with fluids, whether
liquids or gases. EHD has established itself as an energy-efficient, highly versatile, and …

Flexible devices have extensive applications in areas including wearable sensors,
healthcare, smart packaging, energy, automotive and aerospace sectors, and other related …

New methods are emerging to combine the self-assembly of matter and additive
manufacturing, so that new devices and constructs can simultaneously harness the unique …

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 …

Advanced organic-inorganic materials-composites, nanocomposites, and hybrids with
various compositions offer unique properties required for biomedical applications. One of …