Bernhard Wagner

Contact Info

Bernhard Wagner
Fraunhofer Institute for Silicon Technology (ISIT)
Christian-Albrechts-Universität zu Kiel (CAU)
Materials and Processes for Nanosystems Technologies
Institute for Materials Science
Fraunhoferstr. 1, 25524 Itzehoe
+49 (0) 4821 17-4213
Lead of project A3


J. Su, F. Niekiel, S. Fichtner, L. Thormaehlen, C. Kirchhof, D. Meyners, E. Quandt, B. Wagner, F. Lofink, AlScN-based MEMS magnetoelectric sensor. Appl. Phys. Lett. 117, 132903 (2020),

J. Su, F. Niekiel, S. Fichtner, C. Kirchhof, D. Meyners, E. Quandt, B. Wagner, F. Lofink, Frequency Tunable Resonant Magnetoelectric Sensors for the Detection of Weak Magnetic Field J. Micromech. Microeng, accepted (2020)

F. Niekiel, J. Su, M.T. Bodduluri, T. Lisec, L. Blohm, I. Pieper, B. Wagner, F. Lofink, Highly sensitive MEMS magnetic field sensors with integrated powder-based permanent magnets. Sens. Actuators A 297, 111560 (2019).

J. Su, F. Niekiel, S. Fichtner, C. Kirchhof, D. Meyners, E. Quandt, B. Wagner, F. Lofink, Piezoelectric MEMS sensors  for  the  detection  of  weak  magnetic  signals  with  adjustable resonance,  MikroSystemTechnik  Kongress  2019,  28.  –  30.  Oktober 2019, Berlin, 72-75

S. Fichtner, N. Wolff, F. Lofink, L. Kienle, B. Wagner, AlScN: A III-V semiconductor based ferroelectric. Journal of Applied Physics 125, 114103 (2019).

Friedrich, R.-M., S. Zabel, A. Galka, N. Lukat, J.-M. Wagner, C. Kirchhof, E. Quandt, J. McCord, C. Selhuber-Unkel, M. Siniatchkin, F. Faupel, Magnetic particle mapping using magnetoelectric sensors as an imaging modality. Scientific Reports, 9: 2086 (2019).

F. Niekiel, S. Fichtner, C. Kirchhof, D. Meyners, E. Quandt, B. Wagner, F. Lofink, A Tunable Piezoelectric MEMS Sensor for the Detection of Weak Magnetic Signals. MRS Fall Meeting, Boston, USA, Nov. 2018

S. Fichtner, N. Wolff, G. Krishnamurthy, A. Petraru, S. Bohse, F. Lofink, S. Chemnitz, H. Kohlstedt, L. Kienle, B. Wagner, Identifying and overcoming the interface originating c-axis instability in highly Sc enhanced AlN for piezoelectric micro-electromechanical systems. Journal of Applied Physics 122, 035301 (2017). 

S. Zabel, J. Reermann, S. Fichtner, C. Kirchhof, E. Quandt, B. Wagner, G. Schmidt, F. Faupel, Multimode Delta-E Effect Magnetic Field Sensors with Adapted Electrodes; Appl. Phys. Lett. 108, 222401 (2016).


SFB1261 Microsite

Click here to visit our Microsite with information for students, teachers and the public (German and English version available).

Recent Publications

N. Lukat, R.-M. Friedrich, B. Spetzler, C. Kirchhof, C. Arndt, L. Thormälen, F. Faupel, C. Selhuber-Unkel, Mapping of magnetic nanoparticles and cells using thin film magnetoelectric sensors based on the delta-E effect Sens. Actuators A, 309. 112023, (2020),

A. Kittmann, C. Müller, P. Durdaut, L. Thormählen, V. Schell, F. Niekiel, F. Lofink, D. Meyners, R. Knöchel, M. Höft, J. McCord, E. Quandt, Sensitivity and Noise Analysis of SAW Magnetic Field Sensors with varied Magnetostrictive Layer Thicknesses., Sens. Actuators A, 311, 111998 (2020). doi:

A. Galka, S. Monntaha, M. Siniatchkin, Constrained Expectation Maximisation Algorithm for Estimating ARMA models in State Space Representation, EURASIP Journal on Advances in Signal Processing, Springer Nature, accepted (March 2020).




Prof. Dr. Eckhard Quandt

Kiel University
Institute for Materials Science


Internal server



Christian-Albrechts-Universität zu Kiel (CAU)

Christ.-Albrechts-Platz 4
D-24118 Kiel


University Hospital Schleswig-Holstein, Campus Kiel (UKSH)

Arnold-Heller-Straße 3
D-24105 Kiel


Fraunhofer Institute for Silicon Technology, Itzehoe (ISIT)

Fraunhoferstrasse 1
D-25524 Itzehoe  


IPN - Leibniz-Institut für die Pädagogik der Naturwissenschaften und Mathematik 

Olshausenstraße 62 
D-24118 Kiel

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