Recycled additive manufacturing sensing platforms are fabricated with carboxylated multi-
walled carbon nanotubes (COOH-MWCNT) with exhibit enhanced electrochemical …

The combination of multi-walled carbon nanotubes (MWCNT) and carbon black (CB) is
presented to produce a high-performance electrically conductive recycled additive …

The recycling of post-industrial waste poly (lactic acid)(PI-PLA) from coffee machine pods
into electroanalytical sensors for the detection of caffeine in real tea and coffee samples is …

Recycling used mixed material additively manufactured electroanalytical sensors into new
3D-printing filaments (both conductive and non-conductive) for the production of new …

The production of electrically conductive additive manufacturing feedstocks from recycled
poly (lactic acid)(rPLA), carbon black (CB), and bio-based plasticiser castor oil is reported …

Mixing of graphite and carbon black (CB) alongside recycled poly (lactic acid) and castor oil
to create an electrically conductive additive manufacturing filament without the use of …

Herein, we report a complete additively manufactured (AM) electrochemical sensing
platform. In this approach, a fully AM/3D-printed electrochemical system, using a …

Additive manufacturing (three-dimensional (3D) printing) has promising features for fast
prototyping electrochemical systems, from cells to sensors. Conductive filaments containing …

Additive manufacturing has emerged as an innovative technology for the large-scale
development of low-cost and disposable electrochemical devices. Hence, in this paper, we …

Additive manufacturing is a promising technology for the rapid and economical fabrication of
portable electroanalytical devices. In this paper we seek to determine how our bespoke …