Dottorato in Ingegneria Elettrica, Elettronica E Delle Comunicazioni , 36o ciclo (2020-2023)
Dottorato concluso nel 2024
Tesi:
Introducing Advanced Conductors and Semiconductors in 3D polymeric composites for further electronic & photocatalytic applications (Abstract)
Tutori:
Matteo Cocuzza Candido PirriProfilo
Didattica
Insegnamenti
Corso di laurea magistrale
- Challenge@PoliTo by Firms - Mista. A.A. 2022/23, INGEGNERIA GESTIONALE (ENGINEERING AND MANAGEMENT). Collaboratore del corso
Ricerca
Altre attività e progetti di ricerca
Demonstrate the feasibility and development of materials made by MXene-polymer composites obtained by 3D printing and Electrospinning techniques, gas sensor and biosensors (detection of low concentration circulating markers specific for cancer). However, these applications haver different domains they involve common processes. The advantages and disadvantages in terms of cost and performance will be demonstrated.
Pubblicazioni
Pubblicazioni durante il dottorato Vedi tutte le pubblicazioni su Porto@Iris
- SALAS CHAVEZ, ALEJANDRA ANGELICA (2024)
Introducing Advanced Conductors and Semiconductors in 3D polymeric composites for further electronic & photocatalytic applications. relatore: COCUZZA, MATTEO; PIRRI, Candido; , 36. XXXVI Ciclo, P.: 184
Doctoral Thesis - Salas, Alejandra; Zanatta, Marcileia; Sans, Victor; Roppolo, Ignazio (2023)
Chemistry in light-induced 3D printing. In: CHEMTEXTS, vol. 9. ISSN 2199-3793
Contributo su Rivista - Salas, Alejandra; Pazniak, Hanna; Gonzalez-Julian, Jesus; Bianco, Stefano; Amici, Julia; ... (2023)
Development of polymeric/MXenes composites towards 3D printable electronics. In: COMPOSITES. PART B, ENGINEERING, vol. 263, pp. 1-9. ISSN 1359-8368
Contributo su Rivista