Expertise
Material Science
- Sensor
- Temperature
- Three Dimensional Printing
- Microfluidics
Engineering
- Flow Sensor
- Mass Flow
Physics
- Fabrication
- Utilization
Organisations
Publications
2024
A Machine Learning Enhanced MEMS Thermal Anemometer for Detection of Flow, Angle of Attack, and Relative HumidityIn A Machine Learning Enhanced MEMS Thermal Anemometer for Detection of Flow, Angle of Attack, and Relative Humidity, Article 6008304 (pp. 1-4). IEEE. Hackett, T., Sanders, R. G. P., Schmitz, J., Alveringh, D., van den Berg, T. E. & Choi, J. Y.https://doi.org/10.1109/LSENS.2024.3418193Viewing stomata in action: Autonomous in planta imaging of individual stomatal movement links morphology and kinetics. bioRxiv. Berg, T. E. v. d., Sanders, R. G. P., Kaiser, E. & Schmitz, J.https://doi.org/10.1101/2024.03.13.584774Gas Independent Thermal Flow Meter Based on Real-Time Velocity-Independent k and ρcp MeasurementIn 2024 IEEE 37th International Conference on Micro Electro Mechanical Systems (MEMS) (pp. 801-804). Kenari, S. A., Wiegerink, R. J., Sanders, R. G. P. & Lötters, J. C.https://doi.org/10.1109/mems58180.2024.10439397A Multi-Parameter Measurement System for MEMS Anemoters for Data Collection with Machine Learning Outcomes, 126-129. Hackett, T., Alveringh, D., Sanders, R. G. P., van den Berg, T. E. & Schmitz, J.Machine learning-enhanced mass flow measurements using a Coriolis mass flow sensorIn The 5th Conference On MicroFluidic Handling Systems (MFHS 2024) (pp. 65-68). Zubavicius, R., Alveringh, D., Poel, M., Groenesteijn, J., Sanders, R. G. P., Wiegerink, R. J. & Lötters, J. C.Velocity-independent thermal conductivity and volumetric heat capacity measurement of binary gas mixturesIn The 5th Conference on MicroFluidic Handling Systems. Azadi Kenari, S., Wiegerink, R. J., Sanders, R. G. P. & Lötters, J. C.Fluid Viscosity and Density Determination With Machine Learning-Enhanced Coriolis Mass Flow SensorsIn 2024 IEEE 37th International Conference on Micro Electro Mechanical Systems (MEMS) (pp. 82-85). IEEE. Zubavicius, R., Alveringh, D., Poel, M., Groenesteijn, J., Sanders, R. G. P., Wiegerink, R. J. & Lötters, J. C.https://doi.org/10.1109/MEMS58180.2024.10439597Compact Micro-Coriolis Mass-Flow Meter with Optical Readout, Article 114. Yariesbouei, M., Sanders, R. G. P., Wiegerink, R. J. & Lötters, J. C.https://doi.org/10.3390/mi15010114
2023
DC Electric Metamaterial Behaviour in Fused Filament Fabrication Prints with Tuned Interfaces (E-pub ahead of print/First online). Dijkshoorn, A., Hamstra, T., Sanders, R. G. P., Stramigioli, S. & Krijnen, G.https://doi.org/10.1109/jflex.2023.3331563Thermal Flow Meter with Integrated Thermal Conductivity Sensor, Article 1280. Azadi Kenari, S., Wiegerink, R. J., Veltkamp, H.-W., Sanders, R. G. P. & Lötters, J. C.https://doi.org/10.3390/mi14071280Modeling, Fabrication, and Testing of a 3D-Printed Coriolis Mass Flow Sensor, Article 4062. Yariesbouei, M., Sanders, R. G. P., Wiegerink, R. J. & Lötters, J. C.https://doi.org/10.3390/s23084062An integrated optical method to readout µ-Coriolis mass flow sensorsIn MOEMS and Miniaturized Systems XXII, Article 124340Q. SPIE. Sundararajan, A., Wiegerink, R. J., Sanders, R. G. P., Yu, Q. & Lötters, J. C.https://doi.org/10.1117/12.2650589Towards a Gas Independent Thermal Flow MeterIn 2023 IEEE 36th International Conference on Micro Electro Mechanical Systems (MEMS) (pp. 767-770). IEEE. Azadi Kenari, S., Wiegerink, R. J., Lötters, J. C. & Sanders, R. G. P.https://doi.org/10.1109/MEMS49605.2023.10052491
2022
A miniature microclimate thermal flow sensor for horticultural applicationsIn 2022 IEEE Sensors, Article 9967348. IEEE. Alveringh, D., Bijsterveld, D. G., Berg, T. E. v. d., Veltkamp, H.-W., Batenburg, K. M., Sanders, R. G. P., Lötters, J. C. & Wiegerink, R. J.https://doi.org/10.1109/SENSORS52175.2022.9967348Fabrication and characterization of microfluidic pedestal nozzles enabling geometric contact line pinning, Article 131943. Borgelink, B. T. H., Berenschot, E. J. W., Sanders, R. G. P., Schlautmann, S., Tas, N. R. & Gardeniers, H. J. G. E.https://doi.org/10.1016/j.snb.2022.131943
Research profiles
Address
![](https://1348661504.rsc.cdn77.org/.uc/ia3848a2a0103e7e5110085e4f403ff94cdef11c068080801e3bc0268018041/carre.png)
University of Twente
Carré (building no. 15), room C1415
Hallenweg 23
7522 NH Enschede
Netherlands
University of Twente
Carré C1415
P.O. Box 217
7500 AE Enschede
Netherlands