/Student Project: Conductivity sensor for real-time water quality monitoring

Student Project: Conductivity sensor for real-time water quality monitoring

Research & development - Eindhoven | More than two weeks ago

Conductivity sensors are used to determine the quality of liquids for instance surface water, drinking water and sewer water. Your assignment will be developing a design model to optimize a miniaturized 4-electrode conductivity sensor.

Student Project: Conductivity sensor for real-time water quality monitoring

What you will do

Conductivity is one of the most often determined fluid parameters and is a measure for the total amount of dissolved ions. To determine conductivity, the resistance of a fluid sample located in the area between at least two electrodes is determined by impedance spectroscopy. The conductivity is then given by multiplying the measured conductance with, the so-called cell constant of the sensor (Kcell).

The conductivity range that can be determined with a sensor depends on the chosen Kcell. This implies that a correct conductivity sensor must be chosen, fitting with the expected concentration range in the targeted application.

Commercially available conductivity sensors utilize two parallel planar electrodes (with a certain area and distance that define the Kcell). Such a geometry is difficult to miniaturize. However, Timmer et al [1] describe how planar interdigitated 2-electrode sensors on chip can be designed and how the Kcell value can be derived. A disadvantage of the 2-electrode conductivity sensor is the large electrode-electrolyte interface resistance which limits its application for a wide range of conductivity solutions.

To minimize this, a 4-electrode sensor can be used, in which one pair of electrodes are injecting the current, while the other pair are sensing the voltage. We have extended this concept to microfabricated 4-electrodes conductivity sensor [2]. These geometries are tested and the Kcell must be determined analytically. For optimizing the sensor design, new designs and sensors must be made and tested, this process needs to be repeated several times to achieve the desired Kcell. Designing in such way is a time consuming and expensive process. Therefore, a theoretical and/or a simulation model is desired which can determine the Kcell of a 4-electrode conductivity sensor.

The student will develop and verify a new model that predicts the Kcell of a 4-electrode conductivity sensor.

[1] B. Timmer, W. Sparreboom, W. Olthuis, P. Bergveld and A. van den Berg, “Optimization of an electrolyte conductivity detector for measuring low ion concentrations,” Lab Chip, vol. 2, pp 121-124, 2002

[2] Brom-Verheijden, Greja JAM, Martijn H. Goedbloed, and Marcel AG Zevenbergen. "A Microfabricated 4-Electrode Conductivity Sensor with Enhanced Range." Multidisciplinary Digital Publishing Institute Proceedings. Vol. 2. No. 13. 2018.


  • Literature search (4-electrode impedance measurement).
  • Derive a model to calculate the Kcell of a 4-electrode conductivity sensor.
  • Create scripts for data analysis.
  • Give advice and/or design a new 4-electrode conductivity sensor with a specified Kcell

Who you are

  • You are a Msc or Bsc student in Applied Physics, Biomedical Engineering, Chemical Engineering, Electrical Engineering, Mechanical Engineering or Mathematics.
  • You are available for a period of 6 or 9 months.
  • Knowledge of simulation software like Comsol.
  • Affinity with solving differential equations.
  • Motivated student eager to work independently and expand knowledge in the field.
  • Good written and verbal English skills.
  • Entitled to do an internship in the Netherlands. 
For internship opportunities at imec in Holst Centre, please visit the holst centre website: https://www.holstcentre.com/careers/thesis-opportunities/


Click on ‘apply’ to submit your application. You will then be redirected to e-recruiting.

Please be advised that non-EU/EEA country students that are studying outside of the Netherlands, need to have a work-permit to be able to do an internship in the Netherlands.