Die Veröffentlichungen des IMT werden in Zukunft im Publikationsrepositorium der Universitätsbibliothek abgelegt, welches sich zur Zeit im Aufbau befindet. Zum Repositorium gelangen Sie über diesen Link.
, „Bistable microvalve for biomedical usage“, in Design and manufacturing of active microsystems, Heidelberg: Springer, 2011, S. 375 392.
, „Breitbandige On-Wafer-Kalibriernormale in Membrantechnologie: Broadband 110 GHz modeling of coplanar waveguides fabricated in membrane technology“, in Proc. Mikrosystemtechnik-Kongress, 2011, S. 753 756.
, „Broadband 110 GHz on-wafer interconnects built in CMOS-compatible membrane technology“, in Proc. of the 25th Asia-Pacific Microwave Conference, 2011, S. 1110 1113.
, „Cell analysis using a multiple internal reflection photonic lab-on-a-chip“, Nature Protocols, Bd. 6, S. 1642–1655, 2011.
, „Chapter ``System-in-foil technology and applications''“, in Ultra-thin Chip Technology and Applications, New York and NY: Springer Science+Business Media LLC, 2011, S. 141–158.
, „Characteristics of micro hot-film probes for aeronautical purposes“, in Proc. 10th International Symposium of Measurement Technology and Intelligent Instruments, 2011.
, „Characterization of long-term stability of hydrophilized PEG-grafted PDMS within different media for biotechnological and pharmaceutical applications“, physica status solidi (a), Bd. 208, S. 1301 1307, 2011.
, „Closed-loop control of a laser assisted carbon nanotube growth process for interconnects in flexible electronics“, MRS Proceedings, Bd. 1365, 2011.
, „Design and fabrication of a lab-on-a-chip for point-of-care diagnostics“, Sensors and Transducers, Bd. 127, S. 102–111, 2011.
, „Design and fabrication of novel barrier discharge reactors with gas permeable electrodes“, in VI International Workshop on Microplasmas, 2011, S. 112.
, „Design and implementation of new sensors and their integration in joints“, Springer Tracts in Advanced Robotics, Bd. 67, S. 445–459, 2011.
, Design and manufacturing of active microsystems. Heidelberg: Springer, 2011.
, „Design, fabrication and characterization of a novel 3D force sensor made of SU-8“, in Proc. Sensor 2011, 2011, S. 854 857.
, „Development and fabrication of electromagnetic micromotors“, in Design and manufacturing of active microsystems, Heidelberg: Springer, 2011, S. 207 224.
, Disposable lab-on-chip systems for biotechnological screening: Dissertation, Bd. 30. Aachen: {Technische Universität Braunschweig}, 2011.
, „Disposable parallel poly(dimethylsiloxane) microbioreactor with integrated readout grid for germination screening of Aspergillus ochraceus“, Biomicrofluidics, Bd. 5, 2011.
, „DLC-Beschichtung auf SU-8-Fotoresist für piezoresistive Anwendungen in der Kraftsensorik: Coating SU-8 photoresist with DLC to be applied in piezoresistive force sensor systems“, in Proc. Mikrosystemtechnik-Kongress, 2011, S. 567 570.
, „Dotierung: Chapter 13“, in Lehrbuch Mikrotechnologie für Ausbildung, Studium und Weiterbildung, München: Fachbuchverl. Leipzig im Carl-Hanser-Verl., 2011, S. 370 398.
, „Dotierung: Kapitel 13“, in Lehrbuch Mikrotechnologie für Ausbildung, Studium und Weiterbildung, München: Fachbuchverl. Leipzig im Carl-Hanser-Verl., 2011, S. 370–398.
, „Drive systems based on electromagnetic microactuators“, in Design and manufacturing of active microsystems, Heidelberg: Springer, 2011, S. 29 48.
, „Dual photonic electrochemical lab on a chip for lactate detection in continuous flow mode“, 2011 16th International Solid-State Sensors, Actuators and Microsystems Conference, TRANSDUCERS'11, 2011.
, „Dual photonic electrochemical lan on a chip for lactate detection in continuous flow mode“, in Proc. 16th International Conference on Solid-State Sensors, Actuators and Microsystems, 2011, S. 2106–2109.
, Dubbel, Taschenbuch für den Maschinenbau, 23. Aufl. Berlin: Springer, 2011.
, „Effect of microchannel geometry on high-pressure dispersion and emulsification“, Chemical Engineering {&} Technology, Bd. 34, S. 335 343, 2011.
, „Elektrochemisches Polieren von 3D-Mikrosystemen hergestellt mittels Mikrofunkenerosion: Electrochemical polishing of 3D microdevices fabricated by microelectrical discharge machining“, in Proc. Mikrosystemtechnik-Kongress, 2011, S. 642 645.