Abstract 3D printing, also known as additive manufacturing, is a manufacturing process in
which the materials are deposited layer by layer in an additive manner. With the …

In the last decades, the demand for electronics and, therefore, electronic waste, has
increased. To reduce this electronic waste and the impact of this sector on the environment …

Bio-based poly (lactic acid)(PLA) composite films were produced using unmodified soda
micro-or nano-lignin as a green filler at four different contents, between 0.5 wt% and 5 wt …

The recent advancement in transient electronics has proposed environmentally responsible
technologies and bioresorbable devices in response to the growing concern about …

With the ever‐growing requirements in the healthcare sector aimed at personalized
diagnostics and treatment, continuous and real‐time monitoring of relevant parameters is …

Biodegradable electronics can disintegrate and dissolve in liquids, leading to promising
applications in healthcare and consumer electronics. However, biodegradable electronics …

Diethyl l‐tartrate (DET) is used as a biobased plasticizer for poly (lactide)(PLA) formulations
with improved ductile properties without compromising biodegradation. Different weight …

Biocompatible and biodegradable polymer composite systems equipped with
electrical/mechanical functions have been researched as a tool that can be applicable for …

Manufacturing bio-based and biodegradable materials for electronic applications is a swiftly
growing field today. This approach can effectively tackle the future electronic waste …

The authors explore the development of paper-based electronics using carbon-based
composites with a biodegradable matrix based on ethyl cellulose and dibasic ester solvent …