Abstract 3D printing is fast evolving as an additive manufacturing technique that has been
adopted in (bio) analytical science because of the ample variety of materials and …

The potential of 3D printing to transform the field of separation science is becoming clear,
based upon an increasing capacity to create highly customised devices, materials and …

Nowadays, sensors play an important role in human life. Among the many manufacturing
methods used in the fabrication of sensors, three-dimensional (3D) printing has gradually …

3D printing is a type of additive manufacturing (AM), a technology that is on the rise and
works by building parts in three dimensions by the deposit of raw material layer upon layer …

Abstract 3D printing is an emerging enabling technology that can facilitate the production of
complex 3D structures in analytical chemistry, including the millifluidic, eg flow injection (FI) …

Flow chemistry is an area of contemporary chemistry exploiting the hydrodynamic conditions
of flowing liquids to provide particular environments for chemical reactions. These particular …

Recently, the unique capability of three-dimensional (3D) printing strategy for patterning
micro-sized features with complex 3D architectures in a single process has caught an ever …

In this study, we used a stereolithographic 3D printing technique and polyacrylate polymers
to manufacture a solid phase extraction preconcentrator for the selective extraction of trace …

In this work, inexpensive manufacturing of unibody transparent mesofluidic platforms for
pressure-driven Lab-On-a-Valve (LOV) methodologies is accomplished via rapid one-step …

In recent years, a trend toward utilizing open access resources for laboratory research has
begun. Open-source design strategies for scientific hardware rely upon the use of widely …