Giorgio Mogli

Dottorando in Ingegneria Elettrica, Elettronica E Delle Comunicazioni , 38^o ciclo (2022-2025)
Dipartimento Scienza Applicata e Tecnologia (DISAT)

Profilo

Dottorato di ricerca

Argomento di ricerca

3D printed smart sensors development and characterization for human signals biomonitoring

Tutori

Presentazione della ricerca

Poster

Interessi di ricerca

Biomedical devices and applications

Electronic devices: modeling and characterization

Biografia

Advancements in technology require novel interfaces between humans and machines. Integrating the soft tissues of the human body with the rigid components of machinery is crucial. Tactile or smart sensors, inspired by human skin, can detect external stimuli like deformations, temperature, moisture, and light. These sensors have various applications in wearables, soft robotics, prosthetics, and e-skin. However, mimicking haptic sensation remains a challenging endeavor, especially in biomedicine. In this field, 3D printing technology represents a convenient tool to produce sensors with complex shapes that could improve their stimuli sensitivity and their adaptability to the irregular surfaces of living beings.
Therefore, the development and the characterization of a 3D printable, flexible and ideally eco-friendly, multifunctional sensor is the main challenge of this project. Additionally, investigating portable power sources and innovative active transduction methods is an intriguing topic in order to avoid the usage of cumbersome batteries that limit sensors applicability in daily life.

Pubblicazioni

Pubblicazioni degli ultimi anni

Coautori PoliTO

Pubblicazioni per tipo

Pubblicazioni più recenti Vedi tutte le pubblicazioni su Porto@Iris

Mogli, Giorgio; Roppolo, Ignazio; Chiappone, Annalisa; Stassi, Stefano (2025)
Multi-responsive 3D printable organohydrogel for the fabrication of durable and low-hysteresis flexible sensors. In: APPLIED MATERIALS TODAY, vol. 44. ISSN 2352-9407
Contributo su Rivista
Mogli, Giorgio; Chiappone, Annalisa; Roppolo, Ignazio; Stassi, Stefano (2024)
Highly stretchable, 3D printable ionically conductive organohydrogel for long-time stable strain sensors. In: International Conference on Flexible and Printable Sensors and Systems (FLEPS), Tampere (FIN), 30 June 2024 - 03 July 2024, pp. 1-4. ISBN: 979-8-3503-8326-3
Contributo in Atti di Convegno (Proceeding)
Mogli, Giorgio; Reina, Marco; Chiappone, Annalisa; Lamberti, Andrea; Pirri, Candido ... (2024)
Self‐Powered Integrated Tactile Sensing System Based on Ultrastretchable, Self‐Healing and 3D Printable Ionic Conductive Hydrogel. In: ADVANCED FUNCTIONAL MATERIALS, vol. 34. ISSN 1616-301X
Contributo su Rivista
Chiappone, Annalisa; Roppolo, Ignazio; Scavino, Edoardo; Mogli, Giorgio; Pirri, Candido; ... (2023)
Three-Dimensional Printing of Triboelectric Nanogenerators by Digital Light Processing Technique for Mechanical Energy Harvesting. In: ACS APPLIED MATERIALS & INTERFACES, vol. 15, pp. 53974-53983. ISSN 1944-8244
Contributo su Rivista
Mogli, G; Chiappone, A; Sacco, A; Pirri, Cf; Stassi, S (2023)
Ultrasensitive Piezoresistive and Piezocapacitive Cellulose-Based Ionic Hydrogels for Wearable Multifunctional Sensing. In: ACS APPLIED ELECTRONIC MATERIALS, vol. 5, pp. 205-215. ISSN 2637-6113
Contributo su Rivista