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.
, „Blister-actuated LIFT printing for multiparametric functionalization of paper-like biosensors“, Micromachines, Bd. 10, 2019.
, „Femtosecond laser-contoured micro-strain gages“, Microelectronic Engineering, Bd. 214, S. 81–86, 2019.
, „Fluid mechanics and process design of high-pressure antisolvent precipitation of fenofibrate nanoparticles using a customized microsystem“, Chemical Engineering Journal, Bd. 371, S. 554–564, 2019.
, „Integration of a piezoresistive microprobe into a commercial gear measuring instrument“, Precision Engineering, Bd. 55, S. 349–360, 2019.
, „Investigating the passive mechanical behaviour of skeletal muscle fibres: Micromechanical experiments and Bayesian hierarchical modelling“, Acta Biomaterialia, 2019.
, „A microfluidic split-flow technology for product characterization in continuous low-volume nanoparticle synthesis“, Micromachines, Bd. 10, 2019.
, „Robust smartphone assisted biosensing based on asymmetric nanofluidic grating interferometry“, Sensors (Switzerland), Bd. 19, 2019.
, „Self-Learning Microfluidic Platform for Single-Cell Imaging and Classification in Flow“, Micromachines, Bd. 10, 2019.
, „3-D Isotropic Tactile Microprobe Based on a Silicon Parallelogram Kinematic: From Concept to Fabrication“, Journal of Microelectromechanical Systems, Bd. 99, 2018.
, „Characterization of skeletal muscle passive mechanical properties by novel micro-force sensor and tissue micro-dissection by femtosecond laser ablation“, Microelectronic Engineering, Bd. 192, S. 70–76, 2018.
, „Development of a paper-based lateral flow immunoassay for simultaneous detection of lipopolysaccharides of Salmonella serovars“, Analytical and Bioanalytical Chemistry, Bd. 410, S. 863–868, 2018.
, „Flexible sensors on polymide fabricated by femtosecond laser for integration in fiber reinforced polymers“, Flexible and Printed Electronics, Bd. 3, 2018.
, „An inert 3D emulsification device for individual precipitation and concentration of amorphous drug nanoparticles“, Lab on a Chip, Bd. 18, S. 627–638, 2018.
, „Microfluidic synthesis of metal oxide nanoparticles via the nonaqueous method“, Chemical Engineering Science, Bd. 191, S. 500–510, 2018.
, „Microgear measurement standards: Comparing tactile, optical and computed tomography measurements“, American Gear Manufacturers Association Fall Technical Meeting 2018, 2018.
, „Novel measurement standard for internal involute microgears with modules down to 0.1 mm“, Measurement Science and Technology, Bd. 29, 2018.
, „Paper-based magneto-resistive sensor: Modeling, fabrication, characterization, and application“, Sensors (Switzerland), Bd. 18, 2018.
, „Particle-based microfluidic quartz crystal microbalance (QCM) biosensing utilizing mass amplification and magnetic bead convection“, Micromachines, Bd. 9, 2018.
, „Performance enhancement of the synchronous micropump based on experimental and numerical investigations of the magnetic field flux density in planar microcoils“, Transactions of the Institute of Measurement and Control, Bd. 40, S. 469–476, 2018.
, „Respiratory trigger signal generation by means of a stretchable sensor array“, Sensors and Actuators, A: Physical, Bd. 273, S. 113–120, 2018.
, „A 3D microfluidic perfusion system made from glass for multiparametric analysis of stimulus-secretioncoupling in pancreatic islets“, Biomedical Microdevices, Bd. 19, 2017.
, „3D piezoresistive silicon microprobes with stacked suspensions for tailored mechanical anisotropies“, Sensors and Actuators, A: Physical, Bd. 267, S. 164–176, 2017.
, „Assembly of a micro-optical resonator based on silicon micro mirrors for use in gyroscopes“, Proceedings of SPIE - The International Society for Optical Engineering, Bd. 10375, 2017.