Publications

Research papers

Giannitsis, Athanasios; Min, Mart (2010). Usage of microfluidic lab-on-chips in biomedicine. Proceedings of the 12th Biennial Baltic Electronics Conference BEC2010: 12th Biennial Baltic Electronics Conference (BEC2010), Tallinn, Oct.4-6, 2010. Ed. Rang, T., Ellervee, P., Min, M. IEEE, 249−252.
Giannitsis, A.; Min, M. (2010). Fabrication methods for lab-on-chips. Proceedings of the 12th Biennial Baltic Electronics Conference BEC2010: IEEE 2010 12th Biennial Baltic Electronics Conference (October 4-6, 2010, Tallinn, Estonia). Ed. T. Rang, P. Ellervee, M. Min. IEEE, 249−252.
Ojarand, J.; Giannitsis, A.T.; Min, M.; Land, R. (2011). Front-end electronics for impedimetric microfluidic devices. 8068: SPIE Bioelectronics, Biomedical, and Bioinspired Systems V; and Nanotechnology, V, 18-20 April 2011, Prague, Czech Republic. Spie - International Society For Optical Engineering, 1−15.10.1117/12.886553.
Giannitsis, A.T.; Parve, T.; Min, M. (2011). Integration of Biosensors and Associated Electronics on Lab-on-Chip Devices. Electronics and Electrical Engineering, 110 (4), 61−66.
Min, Mart; Parve, Toomas; Pliquett, Uwe F. (2015). Impedance Detection. In: Dongqing Li (Ed.). Encyclopedia of Microfluidics and Nanofluidics (1338−1361).. New York: Springer-Verlag.
Pardy, Tamas; Rang, Toomas; Tulp, Indrek (2015). Modelling and experimental characterization of self-regulating resistive heating elements for disposable medical diagnostics devices. In: C. A. Brebbia (Ed.). Materials Characterization VII (263−271).. Great Britain: WIT Press.10.2495/MCI50231.
Pardy, Tamas; Rang, Toomas; Tulp, Indrek (2016). Finite Element Modelling For The Optimization Of Microheating In Disposable Molecular Diagnostics. 5: Heat Transfer 2016, Ancona, Italy, September 7-9 September, 2016. WIT Press, 13−22. (International Journal of Computational Methods and Experimental Measurements; 106).10.2495/CMEM-V5-N1-13-22.
Pardy, Tamas; Rang, Toomas; Tulp, Indrek (2016). Modelling and experimental characterisation of thermoelectric heating for molecular diagnostics devices. IEEE: 15th Biennial Baltic Electronics Conference (BEC), 2016. IEEE Xplore: IEEE, 27−30.10.1109/BEC.2016.7743720.
Pardy, Tamás; Rang, Toomas; Tulp, Indrek (2017). Development of Temperature Control Solutions for Non-Instrumented Nucleic Acid Amplification Tests(NINAAT). Micromachines, 8 (6) (180).: 10.3390/mi8060180.
Pardy, T.; Tulp, I.; Kremer, C.; Rang, T.; Stewart, R. (2017). Integrated self-regulating resistive heating for isothermal nucleic acid amplification tests (NAAT) in Lab-on-a-Chip (LoC) devices. PLOS ONE, 12.10.1371/journal.pone.0189968 .
Pardy, Tamas; Rang, Toomas; Tulp, Indrek (2018). Thermal Analysis of a Disposable, Instrument-Free DNA Amplification Lab-on-a-Chip Platform. Sensors, 18 (6).10.3390/s18061812 .

Patents

Method and device for broadband analysis of systems and substances; Owners: Tallinn University of Technology , ELIKO Competence Centre in Electronics-, Info- and Communication Technologies; Authors: Raul Land, Paul Annus, Mart Min, Olev Märtens, Jaan Ojarand; Priority number: P201100054; Priority date: 30.08.2011.
Microfluidic test device; Owners: Selfdiagnostics Deutschland GmbH; Authors: Indrek Tulp, Clemens Kremer, Tamás Pardy; Priority number: WO2018153950A1; Priority date: 22.02.2017.

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Thomas Johann Seebeck Department of Electronics

Publications