Publikationen der Arbeitsgruppe Mikro- und nanointegrierte Systeme

B. Ahmed, C. F. Reiche, J. Magda, F. Solzbacher, J. Körner (2022): Physics-Based Circuit Modeling of the Impedance Characteristics of a Smart Hydrogel-Actuated Bending Sensor,  Sensors and Actuators A: Physical 347:113954 (2022)
DOI: 10.1016/j.sna.2022.113954

K. Rückmann, G. Mu, J. Magda, F. Solzbacher, C. F. Reiche, J. Körner (2022): A reliable and easy-to-implement optical characterization method for dynamic and static properties of smart hydrogels,  Polymer 246:124713 (2022)
DOI: 10.1016/j.polymer.2022.124713

G. Bücken, J. Körner (2020): Time-Domain Analysis of a Novel co-Resonant Cantilever MEMS Sensor and Derivation of a New Measurement Concept Based on Beating,  Journal of Microelectromechanical Systems 29(5):1032 (2020)

K. Lenz, R. Narkowicz, K. Wagner, C. F. Reiche, J. Körner, T. Schneider, A. Kákay, H. Schultheiss, U. Weissker, D. Wolf, D. Suter, B. Büchner, J. Fassbender, T. Mühl, J. Lindner (2019): Magnetization dynamics of an individual single-crystalline Fe-filled carbon nanotube,  Small 1904315 (2019)

H.-Y. Leu, N. Farhoudi, C. F. Reiche, J. Körner, S. Mohanty, F. Solzbacher, J. Magda (2018): Low cost microfluidic device with smart hydrogel patterned arrays using electronic resistive channel sensing for readout,  Gels 4(4):84 (2018), invited paper

J. Körner (2018): Effective sensor properties and sensitivity considerations of a dynamic co-resonantly coupled cantilever sensor,  Beilstein Journal of Nanotechnology 9:2546 (2018)

J. Körner (2018): A highly sensitive co-resonant cantilever sensor for materials research: Application to nanomaterial characterization,  Journal of Materials Research 33(17):2504 (2018), invited paper

J. Körner, C. F. Reiche, B. Büchner and T. Mühl (2018): Theory and application of a novel co-resonant cantilever sensor,  tm - Technisches Messen 85(6):410 (2018)

J. Körner, C. F. Reiche, R. Ghunaim, R. Fuge, S. Hampel, B. Büchner and T. Mühl (2017): Magnetic properties of individual Co2FeGa Heusler nanoparticles studied at room temperature by a highly sensitive co-resonant cantilever sensor,  Scientific Reports 7:888 (2017)

J. Körner, C. F. Reiche, B. Büchner, G. Gerlach and T. Mühl (2016): Signal enhancement in cantilever magnetometry based on a co-resonantly coupled sensor,  Beilstein Journal of Nanotechnology 7:1033 (2016)

J. Körner, C. F. Reiche, B. Büchner, T. Mühl and G. Gerlach (2016): Employing electro-mechanical analogies for co-resonantly coupled cantilever sensors,  Journal of Sensors and Sensor Systems 5:242 (2016)

C.F. Reiche* , J. Körner*, Bernd Büchner and Thomas Mühl - *shared first authorship (2015): Introduction of a co-resonant detection concept for mechanical oscillation-based sensors,  Nanotechnology 26(33):335501 (2015)

T. Mühl, J. Körner, S. Philippi, C.F. Reiche, A. Leonhardt and B. Büchner (2012): Magnetic force microscopy sensors providing in-plane and perpendicular sensitivity,  Appl. Phys. Lett. 101(11):112401 (2012)

B. Ahmed, C. F. Reiche, F. Solzbacher, J. Körner (2022): Investigation of mechanical properties of a smart hydrogel-based impedimetric bending sensor platform,  2022 IEEE Sensors, pp. 01 – 04
DOI: 10.1109/SENSORS52175.2022.9967261

J. Körner (2022): Co-resonant Cantilevers for Materials Research and Sensor Applications,  Technical Digest of the Hilton Head Solid-State Sensors, Actuators, and Microsystems Workshop 2022, pp. 448 – 449

M. Lippmann, S. Gitte, C. Ottersbach, I. Eickel, N. Kunze-Szikszay, T. Perl, C. Rosin, W. Vautz, C. Drees, S. Liedtke, T. Kobelt and S. Zimmermann (2022): Kopplung von Gaschromatograph und Doppelröhren-Ionenmobilitätsspektrometer zur Differenzierung von Sepsis-Erregern,  9th IMS Users’ Meeting, p. 38, Unna, Germany, March 2022

N. B. Edeler, I. Lampouras, J. Körner (2022): Untersuchung der dynamischen Energieverteilung in ko-resonant gekoppelten Cantilever-Sensoren,  Tagungsband 16. Dresdner Sensor-Symposium 2022; 05. - 07.12.2022, pp. 189 – 192
DOI: 10.5162/16dss2022/P36

S. Wang, G. Gerlach, J. Körner (2022): Modifikation von smarten PNIPAAm-Hydrogelen zur Acetondetektion in Gasen,  Tagungsband 16. Dresdner Sensor-Symposium 2022; 05. - 07.12.2022, pp. 109 – 114
DOI: 10.5162/16dss2022/P12

G. Mu, K. Rückmann, J. Körner (2021): Charakterisierung der Quelldynamiken von smarten Hydrogelen mittels direkter optischer Erfassung,  Tagungsband 15. Dresdner Sensor-Symposium 2021 (online), 06. - 08.12.2021; pp. 300 – 301
DOI: 10.5162/15dss2021/P9.1

K. Rückmann, R. G. C. Middendorff, J. Körner (2021): Herstellung und Charakterisierung von smarten thermosensitiven Hydrogelen mit eingebetteten Gold- und Silber-Nanopartikeln,  Tagungsband 15. Dresdner Sensor-Symposium 2021 (online), 06. - 08.12.2021; pp. 99 – 100
DOI: 10.5162/15dss2021/6.2

S. Wang, G. Gerlach, J. Körner (2021): Smarte Hydrogele als sensorische Elemente in der Atemgas-Analyse,  Tagungsband 15. Dresdner Sensor-Symposium 2021 (online), 06. - 08.12.2021; pp. 145 – 148
DOI: 10.5162/15dss2021/P3.3

J. Körner (2018): Effective sensor properties of a novel co-resonant cantilever sensor,  Eurosensors 2018 Proceedings 2(13):974 (2018)

J. Körner (2018): A novel co-resonantly coupled cantilever sensor platform,  TechConnect Briefs 4:151 (2018)

J. Körner, C. F. Reiche, H.-Y. Leu, J. Magda and F. Solzbacher (2018): Fast-reacting smart hydrogel-based sensor platform for biomedical applications,  TechConnect Briefs 3:206 (2018)

J. Körner, C. F. Reiche, H.-Y. Leu, N. Farhoudi, J. Magda and F. Solzbacher (2018): A sensor platform for smart hydrogels in biomedical applications,  Eurosensors 2018 Proceedings 2(13):1006 (2018)

C.F. Reiche, J. Körner, B. Büchner and T. Mühl (2015): Bidirectional scanning force microscopy probes with co-resonant sensitivity enhancement,  Proc. IEEE 15th Int. Conf. Nanotech., 2015

J. Körner, C.F. Reiche, B. Büchner, G. Gerlach and T. Mühl (2015): Application of a co-resonant sensor concept in cantilever magnetometry,  Proc. IEEE 15th Int. Conf. Nanotech., 2015

J. Körner, G. Göbel, B. Brenner, E. Beyer (2012): Numerical simulation of magnetic pulse welding: Insights and useful simplifications,  Proceedings of the 5th International Conference on High Speed Forming, Dortmund (Germany): 315 (2012)

M. Avula, D. A. Christensen, N. Farhoudi, S. Kanarowski, J. Koerner, J. J. Magda, R. S. Marrouche, C. F. Reiche, F. Solzbacher, M. D. Sorenson (2022): Ultrasound imaging of biomarker sensitive hydrogels,  US Patent 11,445,997; 2022

C.F. Reiche, T. Mühl, J. Körner (2021): Verfahren und Vorrichtung zur Ermittlung von Kraftfeldern, Kraftfeldgradienten, Materialeigenschaften oder Massen mit einem System aus gekoppelten, schwingungsfähigen, balkenartigen Komponenten,  DE 10 2015 224 938 (granted June 2021)

T. Mühl, J. Körner (2021): Verfahren und Vorrichtung zur Messung von Kraftgradienten in der Kraftmikroskopie,  DE 10 2011 084 434 (granted Mar 2021)

H.-Y. Leu, N. Farhoudi, C. F. Reiche, J. Koerner, S. Mohanty, F. Solzbacher, J. J. Magda (2020): Low-Cost Microfluidic Sensors with Smart Hydrogel Patterned Arrays Using Electronic Resistive Channel Sensing for Readout,  US 2020/0114353 A1

M. Leber, J. Körner, C. F. Reiche, M. Yin, R. Bhandari, R. Franklin, S. Negi, F. Solzbacher (2019): Chapter 1: Advances in Penetrating Multichannel Microelectrodes Based on the Utah Array Platform,  IN: Neural Interface: Frontiers and Applications, Editor: X. Zheng, Springer Nature, Singapore, 2019
DOI: 10.1007/978-981-13-2050-7_1