AP 3.3.2 Miniaturisierte Druck- und Zugdetektion

Goals

• An alternative cost-effective and eco-friendly approach
• Maskless patterning on substrates

Wissenschaftlerin: Harija Harikumar, PhD
PI: Jun.-Prof. Dr. Anindya Nag
Institut für Akustik und Sprachkommunikation

Publications

Harija, H., Chakraborthy, A., Nuthalapati, S., Langer, E., Nag, A., Richter, A., & Altinsoy, M. E. (2023, December). Novel Cork-based Laser-Induced Graphene Sensors: Proof-of-Concept and Initial Results. In 2023 16th International Conference on Sensing Technology (ICST) (pp. 1-6). IEEE.
Harija, H., Nag, A., Richter, A., & Altinsoy, M. E. (2024). Toxicology of Carbon Nanotubes. In Carbon Nanotube-Based Sensors (pp. 68-83). CRC Press.
Chakraborthy, A., Harija, H., Nuthalapati, S., Langer, E., Nag, A., & Altinsoy, M. E. (2023, December). Low-cost paper-based sensors for strain-induced applications. In 2023 16th International Conference on Sensing Technology (ICST) (pp. 1-6). IEEE.
Nag, A., Chakraborthy, A., Vega, M. R. O., Nuthalapati, S., Harija, H., Özer, M. S., & Altinsoy, M. E. (2023). Ultra-low-cost graphene/fabric-based sensors: Part I-Characterization and Preliminary results. IEEE Sensors Journal.