|
|
- Info
Publikationen PDF 2011
-
Lass, N.; Rapid prototyping of 3D microstructures
-
-
Kerzenmacher, S.; A potentially implantable glucose fuel cell
-
-
Kalkandjiev, K.; Microfluidics in silicon/polymer technology
-
-
Ziegler, C.; Direct three-dimensional reconstruction
-
-
Vosseler, M.; A Smart Interface
-
-
Rubenwolf, S.; Strategies to extend the lifetime
-
-
Hussein, L.; A highly efficient buckypaper-based electrode material
-
-
Mark, D.; Assay-Automatisierung als Dienstleistung
-
-
Karle, M.; Controlled counter-flow motion
-
-
Pospischil, M.; Investigations of Thick-Film-Paste Rheology
-
-
Thiele, S.; Nano-Morphology of a Polymer Electrolyte Fuel Cell
-
-
Kloke, A.; A Single Layer Glucose Fuel Cell
-
-
Ernst, A.; Noncontact Determination of Velocity
-
-
Mark, D.; Aliquoting on the centrifugal microfluidic platform
-
-
Yusof, A.; Inkjet-like printing of single-cells
-
-
Trenkle, F.; Normally-closed peristaltic micropump
-
-
Hutzenlaub, T.; The effect of wetting properties
-
-
Wangler, N.; High-resolution permanent photoresist laminate
-
-
Kloke, A.; Strategies for the Fabrication
-
-
Frey, O.; Biosensor microprobes
-
-
Mark, D.; Laborautomation - Die zentrifugal-mikrofluidische Plattform
-
-
Spieth, S.; Mikrodosiersysteme machen funktionellere Lösungen möglich
-
-
Spieth, S.; A floating 3D silicon microprobe array
-
-
Focke, M.; Microthermoforming of microfluidic substrates
-
-
Meier, M.; The RootChip
-
-
Kosse, D.; Microthermoforming and sealing
-
-
Strohmeier, O.; Real-time PCR based
-
-
Focke, M.; Microfluidic cartridges for DNA purification
-
-
Karle, M.; Microfluidic flow-through
-
-
Lutz, S.; Centrifugal microfluidic platforms
-
|
|
|