This paper presents a comprehensive review of the literature for fabricating PDMS
microfluidic devices by employing additive manufacturing (AM) processes. AM processes for …

Microelectromechanical systems (MEMS) are of high interest for recent electronic
applications. Their applications range from medicine to measurement technology, from …

Three-dimensional (3D)-printing techniques such as stereolithography (SLA) are currently
gaining momentum for the production of miniaturized analytical devices and molds for soft …

Implantable electronics are of great interest owing to their capability for real-time and
continuous recording of cellular–electrical activity. Nevertheless, as such systems involve …

Polydimethylsiloxane (PDMS) is a long‐standing material of significant interest in
microfluidics due to its unique features. As such, rapid prototy** of PDMS‐based …

The continuous growth of additive manufacturing in worldwide industrial and research fields
is driven by its main feature which allows the customization of items according to the …

Smart implants are increasingly used to treat various diseases, track patient status, and
restore tissue and organ function. These devices support internal organs, actively stimulate …

SiC is widely used in power electronics and high-temperature devices due to its
comprehensive physicochemical properties, including high thermal stability, mechanical …

In this work, we demonstrate an effective way of deep (30 µm depth), highly oriented (90°
sidewall angle) structures formation with sub-nanometer surface roughness (R ms= 0.7 nm) …

Temperature is a critical—yet sometimes overlooked—parameter in microfluidics.
Microfluidic devices can experience heating inside their channels during operation due to …