Jörg Peter Kutter

TL;DR: In this article, a method for the determination of metal cations in aqueous solution using a monolithically integrated microfabricated (microchip) device which allows sample stacking, electrophoretic separation, and postcolumn derivatization is described.

TL;DR: The rapid prototyping possibility combined with the material's resulting mechanical strength, solvent resistance, and biocompatibility, as well as the inherently easy surface functionalization are strong factors to make thiol-ene polymers strong contenders for promising future materials for many biological, clinical and technical lab-on-a-chip applications.

TL;DR: A novel micropump with large flow rate and high pressure capacity powered by a low voltage DeltaV<30 V is presented and Bubble-free palladium electrodes are implemented in order to increase the range of applications and reduce maintenance.

TL;DR: Two cases-quantitative determination of the enzyme concentrations in cultivation samples and investigation of adsorption of the enzymes onto cellulose-demonstrated the advantages and perspectives of CE analysis of these broad groups of enzymes.

TL;DR: Characterization by scanning electron microscopy showed that the methanol-based emulsion templating process resulted in a network of highly interconnected and regular thiol-ene beads anchored solidly inside thiola-ene microchannels in a single photoinitiated step.