The popularity of 3D printed flexible sensors has increased as a result of recent
breakthroughs in the Internet of Things (IOTs) and advances in the field of flexible and …

The 3D printing (or additive manufacturing, AM) technology is capable to provide a quick
and easy production of objects with freedom of design, reducing waste generation. Among …

Carbon‐reinforced polymer matrix composites (PMCs) have been thoroughly applied in
different fields because of their benefits, such as low specific gravity, corrosion resistance …

The limiting aspects in the voltammetric response of 3D printed electrodes is thoroughly
investigated with numerical simulations and new 3D printed electrode designs. Severe …

Here, we propose a recyclable approach using acrylonitrile-butadiene-styrene (ABS)
residues from additive manufacturing in combination with low-cost and accessible graphite …

Abstract 3D printing technology revolutionized the development of electrochemical sensors
allowing the fabrication of custom devices that can be adapted to meet specific applications …

The combination of CO2 laser ablation and electrochemical surface treatments is
demonstrated to improve the electrochemical performance of carbon black/polylactic acid …

The 3D printing is described of a complete and portable system comprising a batch injection
analysis (BIA) cell and an electrochemical platform with eight sensing electrodes. Both BIA …

Changing the connection length of an additively manufactured electrode (AME) has a
significant impact on the electrochemical and electroanalytical response of the system. In the …

The use of 3D printing technology has enabled the development of low-cost and versatile
electrochemical sensors. Commercial conductive filaments have been widely used due to …