Prof. Luigi Occhipinti, University of Cambridge, United Kingdom
Prof. Luigi Occhipinti is a distinguished researcher in nanotechnologies, smart sensors, and AI-driven biosystems. He serves as Director of Research and Professor at the University of Cambridge, leading groundbreaking advancements in flexible electronics and human-machine interfaces. With over 25 years of industry and academic experience, he has contributed significantly to graphene technologies, biosensors, and AI-assisted wearable systems. Previously, he held leadership roles at STMicroelectronics, overseeing strategic alliances and pioneering nano-organic research. Prof. Occhipinti has 97 journal publications, 92 patents, and an h-index of 32, underscoring his impact on next-generation electronics, healthcare technology, and advanced computing systems.
🌍 Professional Profile:
ORCID
SCOPUS
🏆 Suitability for Best Researcher Award
Prof. Occhipinti’s cutting-edge contributions to nanotechnology, biosensors, and AI-driven systems make him an outstanding candidate for the Best Researcher Award. His extensive patent portfolio (92 patents, 51 granted) and pioneering work in wearable human-machine interfaces and flexible electronics demonstrate an unparalleled commitment to technological advancement. As an IEEE Senior Member and recipient of the 2024 IEEE Sensor Council Technical Achievement Award, he has gained global recognition for shaping next-generation intelligent systems. His multidisciplinary expertise in bioengineering, advanced materials, and AI solidifies his standing as an innovator pushing the boundaries of science and technology.
🎓 Education
Prof. Luigi Occhipinti holds a Ph.D. in Electrical Engineering from the University of Rome “Tor Vergata” (1997), where he specialized in automation and control systems. His Master’s (MEng) and Chartered Engineering (CEng) degrees in Electronic Engineering were earned at the University of Catania (1992). His academic journey has been complemented by leading teaching roles at Cambridge University, Università degli Studi di Catania, and EPSRC Centres for Doctoral Training in Graphene Technologies. His expertise spans power electronics, flexible electronics, and nanotechnologies, contributing significantly to cutting-edge advancements in smart materials and AI-powered biosensing applications.
💼 Experience
Prof. Occhipinti’s career spans academic leadership and industrial innovation. At Cambridge University, he has been a Director of Research and Professor since 2014, spearheading nanotechnology, biosensing, and AI research. Previously, he held senior roles at STMicroelectronics (1995-2014), including Design Team Leader, Group Leader of Nano-Organics, and Strategic Alliances Manager. His expertise in soft computing, analog design, and microelectronics has influenced wearable technologies, flexible electronics, and AI-driven interfaces. His industry and academic roles have led to breakthroughs in healthcare monitoring, AI-based sensing, and next-generation human-computer interaction systems.
🏅 Awards & Honors
Prof. Occhipinti’s groundbreaking contributions have earned him numerous prestigious awards. In 2024, he received the IEEE Sensor Council Technical Achievement Award for Advanced Career, recognizing his impact on sensor technology and smart electronics. He has been an IEEE Senior Member since 2021 and an IEEE Electron Devices Society & IEEE Engineering in Medicine and Biology Society member. His membership in the American Chemical Society (2018-2021) further highlights his interdisciplinary expertise. With 97 journal publications, 92 patents, and leadership roles in international research programs, his influence on next-gen AI, flexible electronics, and biosensing technology is widely recognized.
🔬 Research Focus
Prof. Occhipinti’s research spans human-computer interaction, AI-assisted wearable human-machine interfaces, bioengineering, nanotechnology, and advanced materials. His work in flexible & stretchable electronics, AI-driven biosensors, and resilient intelligent systems has revolutionized next-gen healthcare and IoT applications. His expertise in graphene technologies and high-frequency electronics supports innovations in sustainable, energy-efficient computing. He leads groundbreaking projects in AI-enhanced neurotechnology, medical diagnostics, and smart sensor networks, with a focus on developing bioelectronic systems for precision medicine. His pioneering efforts continue to push the boundaries of AI-integrated biomedical engineering and next-generation smart systems.
📖 Publication Top Notes
-
Graphene: Europe in the Lead Coordination and Support Action
-
Development of a Multifunctional Biomaterial Patch for Buccal Delivery of Peptide-Analogue Treatments
-
Graphene, MXene, and Ionic Liquid-Based Sustainable Supercapacitor
-
GRAphene PHotonic Frequency miXer (GRAPH-X)
-
Chemometric Histopathology via Coherent Raman Imaging for Precision Medicine (CHARM)
-
Smart Sensor Technology – Wearable Electronics