Einsatz eines Mikrofluidsystems zur Durchführung toxikologischer Studien an Mikroorganismen. - In: 4. Workshop "Chemische und biologische Mikrolabortechnik", (2008), insges. 2 S.
Miniaturisation of synthesis and screening assays. - In: 4. Workshop "Chemische und biologische Mikrolabortechnik", (2008), insges. 2 S.
Modellsystem für die serielle Durchführung tropfenbasierter, zellulärer Assays. - In: 4. Workshop "Chemische und biologische Mikrolabortechnik", (2008), insges. 1 S.
Combinatorial organic synthesis by means of micro laboratory techniques. - In: 4. Workshop "Chemische und biologische Mikrolabortechnik", (2008), insges. 3 S.
Einfluß von Viskosität, Flußrate und Tensiden auf die Adressierung von Konzentrationsräumen in der Fluidsegmenttechnik. - In: 4. Workshop "Chemische und biologische Mikrolabortechnik", (2008), insges. 2 S.
Comparative characterisation of static mixing microdevices by residence time distribution measurement and modelling. - In: 4. Workshop "Chemische und biologische Mikrolabortechnik", (2008), insges. 1 S.
LTCC-based fluidic components for chemical applications. - In: Proceedings and exhibitor presentations, (2007), insges. 7 S.
The material properties of low-temperature co-fired ceramics (LTCCs) enable new application areas beyond the use as basic material for high-density circuits. Therefore, LTCCs are increasingly used for microfluidic applications. A modular LTCC-based microreaction system is presented in this article. One focal point of our work was the development of a connecting system for these ceramic fluidic modules. Importance was attached to solid mechanical design, good temperature resistance of fluidic and electrical connections, and minimized dead volume. In contrast to LTCC-based substrates with only electrical circuits, integration of fluidic components makes great demands, especially on the mechanical processing of the green tapes. Mechanical processing of LTCC was made by laser cutting or laser ablation. Single modules and a complete system are the subject of chemical characterization. LTCC-based mixer structures are characterized using the VillermauxDushman method. The functionality of the whole system is shown with an example reaction.
Formation of polymer and nanoparticle doped polymer minirods by use of the microsegmented flow principle. - In: Chemical engineering & technology, ISSN 1521-4125, Bd. 30 (2007), 3, S. 341-346
http://dx.doi.org/10.1002/ceat.200600334
Differentiation of liquid analytes using double layer polymer films with integrated micro spot array. - In: Microarray-Anwendungen in Grundlagenforschung und Routinebetrieb, (2007), S. 5
Formation of Au/Ag nanoparticles in a two step micro flow-through process. - In: Chemical engineering & technology, ISSN 1521-4125, Bd. 30 (2007), 3, S. 347-354
http://dx.doi.org/10.1002/ceat.200600388