Department of Microelectronics
Faculty of Electrical Engineering, Mathematics, and Computer Science

MSc D.A. Dias

PhD student
Bioelectronics (BE), Department of Microelectronics

Biography

Diogo A. S. Dias was born in 1998, Barreiro, Portugal. He received a B.Sc. and an M.Sc. degree in Electrical Engineering from NOVA University of Lisbon, Portugal in 2020 and 2022, respectively. He is currently pursuing a Ph.D. degree in Electrical Engineering with a specialization in Micro-Nanoelectronics from NOVA University of Lisbon, Portugal under a mixed scholarship from the Bioelectronics Section at Delft University of Technology, Netherlands, under the co-supervision of Prof. Tiago Costa. His research interests are CMOS sensor interfaces for ultrasound imaging integrated circuits and Analog-Mixed Signal neuromorphic computing systems for biomedical applications.

Publications

  1. A Parasitic Resistance Extraction Tool Leveraged by Image Processing
    Diogo Dias; João Goes; Tiago L. Costa;
    In IEEE International Symposium on Circuits and Systems (IEEE ISCAS),
    2022. DOI: 10.1109/ISCAS48785.2022.9937879

  2. Implementing a strategy for on-chip detection of cell-free DNA fragments using GMR sensors: A translational application in cancer diagnostics using ALU elements
    Dias, TM; Cardoso, Filipe Arroyo; Martins, SAM; Martins, VC; Cardoso, S; Gaspar, JF; Monteiro, G; Freitas, PP;
    Analytical Methods,
    Volume 8, Issue 1, pp. 119-128, 2016.

  3. Gas viscosity sensing based on the electrostatic pull-in time of microactuators
    R.A. Dias; G. de Graaf; R.F. Wolffenbuttel; L.A. Machado da Rocha;
    Sensors and Actuators A: Physical: an international journal devoted to research and development of physical and chemical transducers,
    Volume 216, pp. 376-385, 2014.

  4. A bacteriophage detection tool for viability assessment of Salmonella cells
    Fernandes, E; Martins, VC; Nóbrega, Cláudia; Carvalho, CM; Cardoso, Filipe Arroyo; Cardoso, S; Dias, J; Deng, D; Kluskens, LD; Freitas, PP; others;
    Biosensors and Bioelectronics,
    Volume 52, pp. 239-246, 2014.

  5. Challenges in spintronic platforms for biomedical applications
    Freitas, PP; Cardoso, FA; Martins, VC; Fernandes, Elisabete Ramos; Martins, SAM; Dias, T; Amaral, JP; Cardoso, S; Germano, J; Costa, T; others;
    2013.

  6. Spintronic devices for biomedical applications
    Freitas, PP; Cardoso, S; Cardoso, FA; Dias, T; Martins, VC; Fernandes, Elisabete Ramos; Carvalho, Carla AOCM; Azeredo, Joana; Amaral, JP; Pinto, V{\'\i}tor; others;
    2013.

  7. Gas viscosity MEMS sensor based on pull-in
    R.A. Dias; G. de Graaf; R.F. Wolffenbuttel; L.A. Machado da Rocha;
    In JR Morante (Ed.), Proceedings of Transducers Eurosensors XXVII: The 17th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS EUROSENSORS XXVII),
    IEEE, pp. 980-983, 2013.

  8. Closed-loop operated time-based accelerometer
    R.A. Dias; P.J. Macedo; H.D. Silva; R.F. Wolffenbuttel; E. Cretu; L.A. Machado da Rocha;
    In R Walczak; J Dzuiban (Ed.), 26th European Conference on Solid-State Transducers, EUROSENSORS 2012,
    Elsevier, pp. 398-401, 2012.

  9. Closed loop operation of time-based accelerometers
    Dias, Rosana A; Wolffenbuttel, RF; Cretu, E; Rocha, Lu{\'\i}s A;
    In Proceedings of the 23rd Micromechanics and Microsystems Europe Workshop,
    2012.

  10. Auto-calibration of capacitive MEMS accelerometers based on pull-in voltage
    L.A. Machado da Rocha; R.A. Dias; E. Cretu; L. Mol; R.F. Wolffenbuttel;
    Microsystem Technologies: micro and nanosystems - information storage and processing systems,
    Volume 17, Issue 3, pp. 429-436, 2011.

  11. Design of a time-based micro-g accelerometer
    R.A. Dias; L. Mol; R.F. Wolffenbuttel; E. Cretu; L.A. Machado da Rocha;
    IEEE Sensors Journal,
    Volume 11, Issue 8, pp. 1677-1683, 2011.

  12. Pull-in-based $\mu$g-resolution accelerometer: Characterization and noise analysis
    Dias, Rosana A; Cretu, Edmond; Wolffenbuttel, Reinoud; Rocha, Luis A;
    Sensors and Actuators A: Physical,
    Volume 172, Issue 1, pp. 47-53, 2011.

  13. A novel SOI-MEMS �micro-swing� time-accelerometer operating in two time-based transduction modes for high sensitivity and extended range
    V. Rajaraman; B.S. Hau; L.A. Rocha; R.A. Dias; K.A.A. Makinwa; R. Dekker;
    In 16th International Solid-State Sensors, Actuators and Microsystems Conference (TRANSDUCERS 2011),
    Beijing, China, pp. 2066-2069, Jun. 2011. ISBN 978-1-4577-0157-3; DOI 10.1109/TRANSDUCERS.2011.5969225.

  14. Noise analysis of a micro-G pull-in time accelerometer
    R.A. Dias; R.F. Wolffenbuttel; E. Cretu; L.A. Rocha;
    In A Johanessen; P Ohlckers; E Johanessen; M Azadmehr (Ed.), Vestfold University College, pp. 258-261, 2011.

  15. Squeeze-film damper design with air channels: experimental verification
    R.A. Dias; R.F. Wolffenbuttel; E. Cretu; L. Rocha;
    In G Kaltsas; C Tsamis (Ed.), 25th Eurosensors Conference,
    Elsevier, pp. 47-50, 2011.

  16. A novel soi-mems "micro-swing" time-accelerometer operating in two time-based transduction modes for high sensitivity and extended range
    V. Rajaraman; B.S. Hau; L.A. Rocha; R.A. Dias; K.A.A. Makinwa; R. Dekker;
    In M. Bao; L-S Fan (Ed.), 16th International Solid-State Sensors, Actuators and Microsystems Conference (TRANSDUCERS 2011),
    IEEE, pp. 2066-2069, 2011.

  17. Time based micro-g accelerometer with improved damper geometry
    R.A. Dias; L.A. Rocha; L. Mol; R.F. Wolffenbuttel; E. Cretu;
    V Piuri (Ed.);
    IEEE, , pp. 672-675, 2010.

  18. Improved damper geometry for parallel-plate MEMS
    R. dias; L. Mol; E. Cretu; R.F. Wolffenbuttel; L.A. Rocha;
    s.n. (Ed.);
    MME, , pp. 1-4, 2009.

BibTeX support

Last updated: 28 May 2024

Diogo André Dias