Mitarbeiter*innen

Dr.-Ing. Laura Maria Comella

Responsible Investigator

Forschungsbereich A

Professorin an der Fakultät für Maschinenbau und Mechatronik
Hochschule Karlsruhe

Tel.: +49 761 203 7497
E-Mail: laura.comella@imtek.uni-freiburg.de

Areas 0f Expertise

Entwicklung und Integration von Sensoren | Sensornetzwerke | Entwurf eingebetteter Systeme | Intelligente Algorithmen

Projekte in livMatS

Doktorand*innen

Publikationen in livMats

Oxygen sensor system: Real-time absorbance-based monitoring system for tracking oxygen release from tunable anthracene-endoperoxide molecules*
Sharma, A., Barth, V., Jessen, H., & Comella, L. (2025). Oxygen sensor system: Real-time absorbance-based monitoring system for tracking oxygen release from tunable anthracene-endoperoxide molecules. Sensors and Actuators B: Chemical, Vol. 446, 138667. doi: 10.1016/j.snb.2025.138667
A Pressure-Driven Microfluidic Electrical Switch Array Embedded in a Flexible Matrix*
Lehmann, C., Usama. A., Hou, P., Rapp, B.E., & Comella, L. M. (2025). A Pressure-Driven Microfluidic Electrical Switch Array Embedded in a Flexible Matrix. IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS), Singapore, pp. 1-4, doi: 10.1109/FLEPS65444.2025.11105621.
Surface roughness in microfluidic device fabrication: limitations of conventional methods and a novel solution for multi-material bonding*
Lehmann, C., Singh, D., Gastearena, M., & Comella, L. M. (2025). Surface roughness in microfluidic device fabrication: limitations of conventional methods and a novel solution for multi-material bonding. RSC Advances, 15, 19254-19262. doi: 10.1039/D5RA02701B
A Portable Optical Sensor for Real-time Absorbance Characterization of Tunable Anthracene-Endoperoxides*
Sharma, A., Barth, V., Jessen, H., & Comella, L. M. (2024). A Portable Optical Sensor for Real-time Absorbance Characterization of Tunable Anthracene-Endoperoxides. EASS – Energieautonome Sensorsysteme 2024; 12. GMM-Tagung, 18-20.
Stretchable printed circuit boards using a silicone substrate of variable stiffness and conventional PCB fabrication methods*
Jamali, A., Lehmann, C., Aditya, R. T., Goldschmidtboeing, F., Woias, P. & Comella, L. M. (2024). Stretchable printed circuit boards using a silicone substrate of variable stiffness and conventional PCB fabrication methods. Flex. Print. Electron., 9, 045005. doi: 10.1088/2058-8585/ad8242
Exploiting Stiff PDMS Islands to Enhance Stretchable Printed Circuit Boards*
Lehmann, C., Jamali, A., Prakash, K. S., Agbozo, S. W., & Comella, L. M. (2024). Exploiting Stiff PDMS Islands to Enhance Stretchable Printed Circuit Boards. 2024 IEEE International Conference on Flexible and Printable Sensors and Systems (FLEPS), 1–4. doi: 10.1109/FLEPS61194.2024.10603583

Dr.-Ing. Laura Maria Comella

Areas 0f Expertise

Projekte in livMatS

Doktorand*innen

Publikationen in livMats

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