Journale
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(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 -
(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 -
(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)
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(2019): Magnetization dynamics of an individual single-crystalline Fe-filled carbon nanotube, Small 1904315 (2019)
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(2018): Low cost microfluidic device with smart hydrogel patterned arrays using electronic resistive channel sensing for readout, Gels 4(4):84 (2018), invited paper
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(2018): Effective sensor properties and sensitivity considerations of a dynamic co-resonantly coupled cantilever sensor, Beilstein Journal of Nanotechnology 9:2546 (2018)
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(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
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(2018): Theory and application of a novel co-resonant cantilever sensor, tm - Technisches Messen 85(6):410 (2018)
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(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)
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(2016): Signal enhancement in cantilever magnetometry based on a co-resonantly coupled sensor, Beilstein Journal of Nanotechnology 7:1033 (2016)
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(2016): Employing electro-mechanical analogies for co-resonantly coupled cantilever sensors, Journal of Sensors and Sensor Systems 5:242 (2016)
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(2015): Introduction of a co-resonant detection concept for mechanical oscillation-based sensors, Nanotechnology 26(33):335501 (2015)
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(2012): Magnetic force microscopy sensors providing in-plane and perpendicular sensitivity, Appl. Phys. Lett. 101(11):112401 (2012)
Konferenzen
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(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 -
(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
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(2022): Kopplung von Gaschromatograph und Doppelröhren-Ionenmobilitätsspektrometer zur Differenzierung von Sepsis-Erregern, 9th IMS Users’ Meeting, p. 38, Unna, Germany, March 2022
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(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 -
(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 -
(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 -
(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 -
(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 -
(2018): Effective sensor properties of a novel co-resonant cantilever sensor, Eurosensors 2018 Proceedings 2(13):974 (2018)
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(2018): A novel co-resonantly coupled cantilever sensor platform, TechConnect Briefs 4:151 (2018)
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(2018): Fast-reacting smart hydrogel-based sensor platform for biomedical applications, TechConnect Briefs 3:206 (2018)
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(2018): A sensor platform for smart hydrogels in biomedical applications, Eurosensors 2018 Proceedings 2(13):1006 (2018)
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(2015): Bidirectional scanning force microscopy probes with co-resonant sensitivity enhancement, Proc. IEEE 15th Int. Conf. Nanotech., 2015
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(2015): Application of a co-resonant sensor concept in cantilever magnetometry, Proc. IEEE 15th Int. Conf. Nanotech., 2015
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(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)
Patente
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(2022): Ultrasound imaging of biomarker sensitive hydrogels, US Patent 11,445,997; 2022
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(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)
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(2021): Verfahren und Vorrichtung zur Messung von Kraftgradienten in der Kraftmikroskopie, DE 10 2011 084 434 (granted Mar 2021)
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(2020): Low-Cost Microfluidic Sensors with Smart Hydrogel Patterned Arrays Using Electronic Resistive Channel Sensing for Readout, US 2020/0114353 A1
Bücher und Buchbeiträge
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(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