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.
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