dr.ir. Kluba

1. Technology platform for advanced neurostimulation implants
   Marta Kluba;
   PhD thesis, Delft University Technology, 2022. DOI: 10.4233/uuid:9dd9701b-343e-4f25-8d49-02652e839e32

2. Cavity-BOX SOI: Advanced Silicon Substrate with Pre-Patterned BOX for Monolithic MEMS Fabrication
   Kluba, Marta Maria; Li, Jian; Parkkinen, Katja; Louwerse, Marcus; Snijder, Jaap; Dekker, Ronald;
   Micromachines 2021, 12(4), 414;,
   Volume 12, Issue 4, 2021. DOI: 10.3390/mi12040414
   document

3. Novel method of alignment to buried cavities in cavity-SOI wafers for advanced MEMS devices
   Mountain, C.; Kluba, M.; Bergers, L.; Snijder, J.; Dekker, R.;
   Micro and Nano Engineering,
   2019. DOI: 10.1016/j.mne.2019.100043

4. TOWARDS A SEMI-FLEXIBLE PARYLENE-BASED PLATFORM TECHNOLOGY FOR ACTIVE IMPLANTABLE MEDICAL DEVICES
   Nasim Bakhshaee; Marta Kluba; Ronald Dekker; Wouter Serdijn; Vasiliki Giagka;
   In Book of Abstracts, 7th Dutch Biomedical Engineering Conf. (BME) 2019,
   Jan. 24-25 2019.
   document

5. Towards a Semi-Flexible Parylene-Based Platform Technology for Active Implantable Medical Devices
   Nasim Bakhshaee; Marta Kluba; Ronald Dekker; Wouter Serdijn; Vasiliki Giagka;
   In Book of Abstracts, 2019 International Winterschool on Bioelectronics Conference (BioEl 2019),
   Kirchberg, Tirol, Austria, 16-23 March 2019.
   document

6. Towards a semi-flexible parylene-based platform technology for active implantable medical devices
   Nasim Bakhshaee; M. Kluba; R. Dekker; W. Serdijn; V. Giagka;
   In Book of Abstracts, SAFE 2019,
   Delft, the Netherlands, July 4-5 2019.
   document

7. Effect of Signals on the Encapsulation Performance of Parylene Coated Platinum Tracks for Active Medical Implants
   Kambiz Nanbakhsh; Marta Kluba; B. Pahl; F. Bourgeois; Ronald Dekker; Wouter Serdijn; V. Giagka;
   In Proc. 41st Int. Conf. of the IEEE Engineering in Medicine and Biology (EMBC) 2019,
   Berlin, Germany, IEEE, July 23-27 2019.
   document

8. Effect of Signals on the Encapsulation Performance of Parylene Coated Platinum Tracks for Active Medical Implants
   Nanbakhsh, K.; Kluba, M.; Pahl, B.; Bourgeois, F.; Dekker, R.; Serdijn, W.; Giagka, V.;
   In 41st Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC),
   IEEE, pp. 3840-3844, 2019. DOI: 10.1109/EMBC.2019.8857702

9. Towards a semi-flexible parylene-based platform technology for active implantable medical devices
   Bakhshaee Babaroud, N.; Kluba, M.; Dekker, R.; Serdijn, W.; Giagka, V.;
   In 7th Dutch Bio-Medical Engineering Conference - Egmond aan Zee, Netherlands,
   2019.
   document

10. Wafer-Scale Integration for Semi-Flexible Neural Implant Miniaturization
    Marta Kluba; Bruno Morana; Angel Savov; Henk Van Zeijl; Gregory Pandraud; Ronald Dekker;
    In Proceedings Eurosensors,
    pp. 941, 2018. DOI: 10.3390/proceedings2130941

11. Generic platform for the miniaturization of bioelectronic implants
    M. M. Kluba; J. W. Weekamp; M. Louwerse; V. Henneken; R. Dekker;
    In Design of Medical Devices Conference (DMD Europe),
    2017.

12. Singe-Step CMOS Compatible Fabrication of High Aspect Ratio Microchannels Embedded in Silicon
    M. Kluba; A. Arslan; R. Stoute; J. Muganda; R. Dekker;
    In Eurosensors,
    2017.
    document

13. Silicon based microfluidic device with integrated electrodes for the assessment of cellular stiffness
    S. Kawasaki; M. Kluba; R.Dekker;
    In Design of Medical Devices Conference (DMD Europe),
    2017.

14. A low-cost electrical read-out system for cell stiffness measurement using silicon based microfluidic device
    S. Kawasaki; M. M. Kluba; R. Dekker;
    In ICT.OPEN,
    2017.

15. High Aspect Ratio Buried Channel Fabricated Using Two Step DRIE Process
    M. M. Kluba; A. Arslan; R. Dekker;
    In ICT.OPEN,
    2016.

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