Marco Boscherini

Ph.D. candidate in Ingegneria Elettrica, Elettronica E Delle Comunicazioni , 38th cycle (2022-2025)
Department of Electronics and Telecommunications (DET)



Research topic

Design and development of electronic systems for the acquisition of biomedical signals


Research interests

Analog, Power and Mixed-Signal Circuits and Embedded Systems
Biomedical devices and applications
Electronic devices: modeling and characterization
Micro- and nanotechnologies, devices, systems and applications


Personal Summary:
PhD Student in Electrical, Electronics and Communications Engineering (EECE). Member of the MiNES research group at the Department of Electronics and Telecommunications of Polytechnic of Turin, under the supervision of Prof. Danilo Demarchi. Adept in development of electronic systems for biomedical signal acquisition. Member of the IEEE Student Branch Executive Committee of Polytechnic of Turin, in the role of webmaster. Goals for the PhD are to enhance professional abilities, develop innovative ideas and meet prominent researchers from all over the world.

Master's degree in Biomedical Engineering (Biomedical Instrumentation) at Polytechnic of Turin (2022)

Technical Skills:
  • PCB Designing and Troubleshooting
  • Electronic Instrumentation
  • MCU Programming
  • Signal Processing
  • SMD Soldering
  • CADs
  • 3D-Printing
  • C / Python / MatLab Programming
  • Low Power Systems for IoT
Soft Skills:
All the following abilities have been gained by direct experience, specific courses and/or external activities.
  • Writing Scientific Papers
  • Public Speaking
  • Time Management
  • Team-working
  • Multidisciplinarity
  • Problem Solving
Conference Date: 07/11/2022 - 07/15/2022
Conference Name: 2022 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC)
Presentation Title: Low-Cost Neuronal Network Electronic Readout Circuit for Micro-Graphitic Diamond Multi-Electrode Arrays
Conference Venue: Scottish Event Campus
Conference Location: Glasgow - UNITED KINGDOM

  • Italian (Native)
  • English (C1+, self-declared)

Research topics

  • Action potential detection of cultivated dopaminergic neurons through Diamond-based Multi-Electrode Arrays
  • Development of a graphene-sensor-based electronic system for estimating pulse wave velocity
  • Development of analog readout circuits for neuronal cell cultures


ERC sectors

PE7_11 - Components and systems for applications (in e.g. medicine, biology, environment)
LS5_11 - Neurological and neurodegenerative disorders


Goal 3: Good health and well-being