Company Filing History:
Years Active: 2017-2025
Title: Innovations by Alessandro Giuseppe D'Aloia
Introduction
Alessandro Giuseppe D'Aloia is a notable inventor based in Narni, Italy. He has made significant contributions to the field of electrochemical sensors and nanocomposites. With a total of 2 patents, his work focuses on advancing technology in wearable devices and electromagnetic interference reduction.
Latest Patents
D'Aloia's latest patents include a wearable and flexible electrochemical sweat sensor. This innovative sensor consists of a polymer composite membrane containing graphene. The design features a multi-composite electrochemical cell that includes three different adjacent sectors, each made of a modified polymer. The first sector incorporates graphene nanoplatelets and functions as a cathode. The second sector acts as an insulating spacer, while the third sector combines graphene nanoplatelets with a metal filler, serving as an anode.
Another significant patent involves graphene nanoplatelets-based nanocomposites aimed at reducing electromagnetic interferences. This process includes controlled synthesis to optimize the morphological and electrical properties of graphene nanoplatelets. The goal is to produce GNP-based polymeric nanocomposites that effectively shield or absorb energy from electromagnetic fields.
Career Highlights
Alessandro D'Aloia is affiliated with the Università Degli Studi Di Roma “La Sapienza.” His work at this prestigious institution has allowed him to explore innovative solutions in materials science and engineering. His research has garnered attention for its practical applications in various industries.
Collaborations
D'Aloia collaborates with notable colleagues, including Maria Sabrina Sarto and Alessio Tamburrano. Their combined expertise contributes to the advancement of research in their respective fields.
Conclusion
Alessandro Giuseppe D'Aloia is a prominent inventor whose work in electrochemical sensors and nanocomposites is paving the way for future innovations. His contributions are significant in enhancing technology and addressing challenges in electromagnetic interference.