dr. A. Sisman

Bioelectronics (BE), Department of Microelectronics

Expertise: BioMEMS, Embedded System Design,Array signal processing, Ultrasonic imaging, MEMS sensors/actuators


Alper Sisman received the BS degree in 1998 from the Istanbul Technical University, Turkey; he has got the MS and PhD degrees in 2002 and 2010 respectively, all in electrical engineering from from Isik University. He has worked for several companies in industry, in where he has involved several projects to design&production of consumer products while he continue pursuing his M.S and PhD studies. Between 2003 and 2009, he managed the R&D department of Mobiarts Communication Systems Ltd Sti, of which he was a founding partner. From 2011 to 2012, he was a post-doc at the Acoustic Transducers Lab., University of South Florida, Tampa, FL. Since 2011, he has been working as an Assistant Professor at the Electrical and Electronics Engineering Department, Marmara University, and is also the director of the AcousticMEMS Laboratory. He is the founder of MedicaSENSE Technology (2014), a company that fabricates acoustic-based biosensors. He also works as a part-time researcher at Sabanci University Nanotechnology Center (SUNUM). He is currently working as a visiting scientist at Delft University Bioelectronics Laboratory. His research interests include signal processing, medical ultrasonic imaging, MEMS sensors/actuators and embedded system design.


  1. Development of a microfluidic device for low-volume sample lysis
    Abbas Husseini; Ali Mohammad Yazdani; Alper Sisman;
    Microfluidics and Nanofluidics,

  2. Acoustic Technologies in Biology and Medicine
    Alper Sisman; Paddy French; Ayse Ogan; Erdal Korkmaz; Abbas Ali Husseini; Ali Mohammad Yazdani; and Johan Meyer;
    Jun Huang; Adem Ozcelik (Ed.);
    Wiley International Publishing, Chapter Acoustic Biosen, , 2023.

  3. A novel numerical model to simulate acoustofluidic particle manipulation
    Ali Mohammad Yazdani; Alper Sisman;
    IOP Publishing Physica Scripta,
    Volume 95, Issue 9, August 2020. DOI: 10.1088/1402-4896/abac38

  4. Numerical and Experimental Studies on the Effect of Surface Roughness and Ultrasonic Frequency on Bubble Dynamics in Acoustic Cavitation
    Rana Altay; Abdolali K. Sadaghiani; M. Ilker Sevgen; Alper Sisman; Ali Koşar;
    MDPI Energy,
    2020. DOI: 10.3390/en13051126

  5. Energy Harvesting and Energy Efficiency: Technology, Methods and Applications
    Güre Nazenin; Kar Abdulkerim; Tacgin Erturul; Alper Sisman; Tabatabaei Muhdavi;
    Nicu bizon at al. (Ed.);
    Springer International Publishing AG, Chapter Hybrid Energy H, , 2017. DOI: 10.1007/978-3-319-49875-1_2

  6. A Urinary Bcl-2 Surface Acoustic Wave Biosensor for Early Ovarian Cancer Detection
    O. Onen; A. Sisman; N.D. Gallant; P. Kruck; R. Guldiken;
    MDPI Sensors,
    December 2012. DOI: 10.3390/s120607423

  7. An Analog Integrated Circuit Beamformer for High- Frequency Medical Ultrasound Imaging
    G. Gurun; J. Zahorian; A. Sisman; M. Karaman; P. Hasler; F. L. Degertekin;
    IEEE Transactions On Biomedical Circuits And Systems,
    October 2012. DOI: 10.1109/TBCAS.2012.2219532

  8. A Synthetic Phased Array Surface Acoustic Wave Sensor for Quantifying Bolt Tension
    A. Sisman; J. Martinez; O. Onen; D. Velasquez; R. Guldiken;
    MDPI Sensors,
    2012. DOI: 10.3390/s120912265

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Last updated: 8 Feb 2023