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Mr. Alessio Mostaccio | Sustainable Materials | Best Researcher Award

Mr. Alessio Mostaccio,University of Roma Tor Vergata, Italy.

🔬 Alessio Mostaccio is a Post-doctoral Researcher at the University of Rome Tor Vergata specializing in laser-induced graphene (LIG) 🌱 and its applications in sustainable and wireless electronics 📡. His research focuses on developing biodegradable RFID labels, smart prosthetic sensors, and high-frequency LIG simulations. With 7 journal publications 📚, 6 industry projects 🏭, and 1 patent 📜, he has pioneered LIG-based antennas for food safety and medical implants 🏥. His innovations drive next-generation IoT and green electronics 🌍.

🌟 Professional Profile

🎓 Early Academic Pursuits

Alessio Mostaccio embarked on his academic journey with a strong focus on materials science and electronics. His early research delved into innovative materials for sustainable and high-frequency applications, laying the foundation for his expertise in Laser-Induced Graphene (LIG). Throughout his PhD, he developed a keen interest in the interaction of LIG with microwave frequencies, which later became the central theme of his research. His academic curiosity led him to explore cutting-edge wireless technologies, aiming to bridge the gap between numerical simulations and experimental findings.

💼 Professional Endeavors

As a Post-Doctoral Researcher at the University of Rome Tor Vergata, Alessio has been at the forefront of developing LIG-based solutions for modern electronic applications. His work extends to designing and optimizing biodegradable RFID-based labels and implantable wireless sensors. These advancements have profound implications for healthcare and sustainable electronics. His expertise in numerical modeling has played a pivotal role in refining microwave performance predictions, ensuring the practical viability of LIG in emerging wireless communication technologies.

🔬 Contributions and Research Focus On Sustainable Materials

Alessio’s research contributions have significantly impacted the field of green electronics and RFID technology. His groundbreaking numerical model provided deeper insights into LIG behavior at microwave frequencies, overcoming discrepancies between theoretical and experimental results. Notably, he pioneered the first fully LIG-based antenna capable of detecting food spoilage with an impressive read range of 1.6 meters. Additionally, he developed epidermal and implantable wireless sensors for continuous health monitoring. His current projects focus on enhancing the conductivity of LIG-based antennas through electroplating and improving the sustainability of electronic components by transferring LIG traces onto biodegradable substrates.

🌍 Impact and Influence

Alessio’s innovative research has far-reaching applications in sustainable technology, healthcare, and the Internet of Things (IoT). His work on biodegradable electronics addresses the growing concerns surrounding e-waste, offering eco-friendly alternatives for disposable sensors and wireless communication systems. The interdisciplinary nature of his research has attracted international collaborations, including a partnership with the University of British Columbia, Canada. By pushing the boundaries of wireless sensor technology, his findings contribute to the development of next-generation communication devices with minimal environmental impact.

🏆 Awards and Honors

Alessio’s pioneering research has earned him recognition in the scientific community. His commitment to excellence and innovative contributions in RFID technology and green electronics have positioned him as a strong contender for prestigious accolades, including the Best Researcher Award. His dedication to pushing the boundaries of sustainable wireless technologies underscores his potential for future industry-defining breakthroughs.

🚀 Legacy and Future Contributions

Alessio Mostaccio envisions a future where sustainable electronics replace traditional components in wireless communication and healthcare. His ongoing work aims to optimize LIG properties for scalable industrial applications, ensuring their integration into mainstream electronics. By refining biodegradable electronic designs, he hopes to mitigate e-waste pollution and revolutionize the field of implantable medical devices. His legacy will be defined by his relentless pursuit of eco-friendly, high-performance technologies that merge engineering excellence with environmental responsibility.

📚Publications Top Notes

1️⃣ RFID Technology for Food Industry 4.0: A Review of Solutions and Applications

📖 IEEE Journal of Radio Frequency Identification | 📅 2023 | 📊 30 citations

2️⃣ Cyber-Tooth: Antennified Dental Implant for RFID Wireless Temperature Monitoring
📖 IEEE International Conference on RFID Technology and Applications | 📅 2021 | 📊 16 citations

3️⃣ Comparative Evaluation of Laser-Induced Graphene (LIG) Traces on Polyimide Under Soft and Hard Stress for IoT Applications
📖 IEEE Journal on Flexible Electronics | 📅 2023 | 📊 15 citations

4️⃣ Experimental Characterization of Laser-Induced Graphene (LIG) Antennas for S-Band Wearable Applications in 5G
📖 IEEE International Conference on RFID Technology and Applications | 📅 2022 | 📊 10 citations

5️⃣ Full-LIG Wireless Batteryless Sensor for the Detection of Amines
📖 IEEE International Conference on Flexible and Printable Sensors | 📅 2023 | 📊 8 citations

6️⃣ RFID for Food Industry 4.0 – Current Trends and Monitoring of Fruit Ripening
📖 IEEE International Conference on RFID Technology and Applications | 📅 2022 | 📊 6 citations

7️⃣ Laser-Induced Graphene Fan Antenna for RFID Applications
📖 IEEE International Conference on RFID Technology and Applications | 📅 2023 | 📊 5 citations

8️⃣ Full-LIG Wireless Batteryless Flexible Sensor for the Detection of Triethylamine
📖 IEEE Journal on Flexible Electronics | 📅 2024 | 📊 4 citations

9️⃣ Ultra-Low Power RFID-Based Wake-Up Architectures for Wireless Sensor Networks in Industrial Plants
📖 IEEE International Conference on RFID Technology and Applications | 📅 2023 | 📊 4 citations

🔟 Upper Bound Performances of Laser-Induced Graphene Dipoles in the UHF Band
📖 International Conference on Smart and Sustainable Technologies | 📅 2023 | 📊 4 citations

1️⃣1️⃣ Ultra Low Power Wireless Epidermal Sensor for Battery-less pH Monitoring in the Sub-6 GHz 5G Band
📖 European Conference on Antennas and Propagation (EuCAP) | 📅 2022 | 📊 3 citations

1️⃣2️⃣ Soft and Flexible Wireless Epidermal Plaster Made by Laser-Induced Graphene
📖 IEEE Sensors Letters | 📅 2024 | 📊 2 citations

1️⃣3️⃣ Distributed Wireless Monitoring in Oil & Gas Plants Through Mobile UAV-UGV RFID Platforms
📖 IEEE International Workshop on Metrology for Industry 4.0 & IoT | 📅 2023 | 📊 2 citations

1️⃣4️⃣ Upper-Bound Performance of Laser-Induced Graphene (LIG) Antennas on PEEK for Implantable Applications
📖 IEEE International Symposium on Antennas and Propagation | 📅 2024 | 📊 1 citation

1️⃣5️⃣ Laser-Induced Graphene: A Green Technology for the IoT
📖 IEEE Electron Devices Magazine | 📅 2024

Alessio Mostaccio | Sustainable Materials | Best Researcher Award

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