The Helmholtz Innovation Lab FlexiSens focuses on the development and application of a flexible and printable magnetic field sensor (Hall effect and magnetoresistive effects). New types of high-performance magnetic field sensors on ultra-thin flexible substrates that have a high mechanical adaptability are developed. Furthermore, FlexiSens deals with contactless magnetoelectric measurements in milli- and microfluidic contexts, as well as researching micro- and millifluidic connectors and functional fluidic geometries.


Magnetic field sensors

Due to their extremely thin and unconventional mechanical properties, our flexible and printed sensors can be applied not only to various flat but also curved objects. Our technology enables new fields of applications of magnetic field sensors and the realization of printed magnetic field sensors.

Flexible magnetic field sensors

  • Flexible sensors are on polymeric substrates with a thickness from 1 µm to 100 µm
  • Sensors can be processed on a sample area up to 12” wafer size
  • Fully customized sensor layout
  • Sensors mechanically bendable below 1 mm bending radii
  • Stable electrical properties upon mechanical deformations

Magnetosensitive powder for printable magnetic field sensors

  • Different rigid and flexible substrates (paper, ceramic, silicon, textile, polymers)
  • Substrate thickness from 6 µm
  • Tunable sensitivity to magnetic field in the range from 0.5 mT to 200 mT
  • Temperature sensor stability up to 90 °C
  • Sensors mechanically bendable below 1 mm bending radii
  • Fully customized sensor layout


Our magnetoelectric measuring solution allows contactless measurement of liquids in tubing systems. Next to various liquids, fluid properties (such as pH values ​​or ionic concentrations) can be detected. Our functional fluidic connectors are manufactured using 3D printing and allow a high degree of flexibility in channel arrangements and channel sizes.

Fluidic magnetoelectric platform

  • Detection and characterization of liquids (mixtures) in tubings
  • Sterile and non-contact measurements in continuous or segmented flow
  • Contactless measurement of liquids without the addition of secondary materials, regardless of critical liquid properties (pH values, oxidative properties)

Functional fluidic connectors

  • Transparent, functional connectors for micro- and millifluidic applications
  • Great design options for the channel arrangements and dimensions (up to 500 µm), length and shape of the channels, as well as the introduction of threads and gaps
  • Choice of different material properties (transparency, biocompatibility, mechanical / thermal load capacity, …)
  • More information about: Functional fluidic connectors (PDF)

Air coils

  • Compact (∼5 mm x 1.5 mm) coreless air coils for electrotechnical applications

  • Different inner diameters with
    inductances in the µH range (2 – 10 mm & 20 – 100 µH)

  • Great interest in research and development collaborations and projects relating to custom-made coils

  • More information about: Air coils (PDF)

Technology Offer

The Helmholtz Innovation Lab FlexiSens has the following technology offers:

  • Flexible and printable sensors
  • Magnetosensitive powder
  • Magnetosensitive paste
  • Large area optical lithography and depositions
  • Structural and magnetic characterization
  • Cooperation and scientific projects

Please send your request to:


Magnetron sputtering device

  • 3 magnetron sputtering systems
  • Deposition at up to 950 degC
  • Sample size up to 300 mm wafer
  • Magnetic and oxidic thin layers with a thickness of 1 nm up to 1 µm
  • Monolayer and multilayer systems  with  sub-nm accuracy

Wire bonder

  • Wedge wedge with 17 µm Al wire
  • Ball wedge with 25 µm gold wire
  • Adjustable transducer frequency with up to 140 kHz
  • Rigid and flexible sample substrates

Milli- and microfluidic setup

  • Non-invasive droplet detection in small tubes (diameter of 500 μm and smaller)
  • Monitoring droplets, rapid screening of various substances
  • Optical, magnetic and impedance detection of different analytes

Confocal Microskope

  • Vertical measurement uncertainty: 1-10 nm
  • 3D surface orphology

Scanning electron microscope

  • Resolution < 14 nm
  • Samples up to 10 cm x 10 cm

Direct Laser Writer

  • Up to 2 µm resolution
  • 405 nm laser
  • Samples up to 25 cm x 25 cm