Roberto la rosa | Elettronica | Research Excellence Recognition

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Dr. Roberto la rosa | Elettronica | Research Excellence Recognition

 👤  Dr. Roberto la rosa, STMicroelectronics, Italy

Roberto La Rosa is an accomplished Design Manager and Senior Principal IC mixed-signal Designer at STMicroelectronics. With over 20 years of experience in IC design, he has made significant contributions in energy harvesting, wireless power, and efficient sensor systems. La Rosa’s expertise includes designing ultra-low-power integrated circuits, energy-autonomous systems, and wireless sensor nodes. He has led innovative projects such as wireless battery chargers compliant with the QI standard and energy-efficient ICs for remote control appliances. La Rosa holds a PhD in Electrical Engineering from the Ecole Polytechnique Federale de Lausanne (EPFL), Switzerland. He has authored over 30 scientific publications and holds more than 20 international patents. His work has greatly impacted the fields of energy harvesting, wireless sensor networks, and power management.

Professional Profile

scopus

orcid 

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🌟 Summary of Suitability for the Award

Dr. Roberto La Rosa demonstrates outstanding qualifications for the Research for Research Excellence Recognition Award, given his exceptional contributions to the fields of IC mixed-signal design, energy harvesting, and innovative wireless sensor systems. With over two decades of professional experience and significant leadership roles at STMicroelectronics and other globally renowned institutions, Dr. La Rosa has consistently pushed the boundaries of research and development in energy-efficient integrated circuits.

A key highlight of his career is his work on developing ultra-low-power ICs for energy harvesting and autonomous wireless systems. These innovations align directly with the award’s emphasis on impactful and pioneering research that advances technology and addresses global challenges, such as energy sustainability. Additionally, his leadership in defining products like the STWBC and his expertise in wireless power transfer systems illustrate his ability to translate complex research into practical, real-world applications.

🎓  Education

Roberto La Rosa holds a Master’s Degree in Electronic Engineering, cum laude, from the Universita’ degli Studi di Palermo, Italy, completed in 1995. His academic journey continued with a PhD in Electrical Engineering from the prestigious Ecole Polytechnique Federale de Lausanne (EPFL), Switzerland, completed in 2022. Throughout his academic career, La Rosa focused on energy-efficient systems, sensor technology, and integrated circuit design. His research interests include low-power electronics, energy harvesting, and wireless communication systems. His doctoral research at EPFL was instrumental in developing advanced wireless sensor nodes and energy-autonomous platforms. La Rosa’s education provided a solid foundation in both theoretical knowledge and practical design, enabling him to make significant contributions to his field, and his academic achievements have led to numerous patents and industry-leading innovations.

💼  Professional Experience 

Roberto La Rosa has a distinguished career at STMicroelectronics, where he has held leadership positions since 2006. Currently, he serves as Design Manager and Senior Principal IC mixed-signal Designer, focusing on ultra-low-power integrated circuits for energy harvesting and wireless power applications. La Rosa has led the development of innovative products such as the STWBC wireless battery charger and energy-efficient IC systems for infrared light and radio frequency energy conversion. Prior to his current role, he served as Design Manager for LED drivers and mixed-signal IC products, including ultrasound medical echography systems. His earlier career included roles at Maxim Integrated Circuits and STMicroelectronics in the US, where he contributed to automotive power management systems and telecommunications ICs. La Rosa’s professional experience has positioned him at the forefront of energy-efficient design and wireless technology development.

🏅 Awards and Recognition

Roberto La Rosa has been recognized for his groundbreaking work in the fields of energy harvesting, wireless sensor networks, and ultra-low-power integrated circuits. His innovations have led to over 20 international patents and more than 30 scientific publications. His contributions to wireless power technologies, including his leadership in the development of the STWBC wireless battery charger, have earned him industry recognition. La Rosa’s research on energy-autonomous systems has been widely acknowledged in academic and industrial circles. He has received several accolades, including the IEEE Sensors Journal’s Best Paper Award for his work on energy-autonomous wireless sensors. His expertise in power management and energy harvesting has made him a sought-after speaker at international conferences and a respected thought leader in his field.

🌍 Research Skills On Elettronica

Roberto La Rosa is a highly skilled researcher with deep expertise in mixed-signal design, energy harvesting, and wireless communication systems. His research focuses on the development of energy-efficient technologies, including autonomous sensor nodes, power management ICs, and wireless power transfer systems. La Rosa has advanced the integration of energy harvesting techniques, such as using infrared light and radio frequency energy, into low-power circuits and sensor platforms. His research also includes the design of battery-free wireless sensors and the application of energy-autonomous systems in various industrial sectors, from medical devices to agriculture. La Rosa’s experience spans across IC design, system integration, and energy management, with a strong focus on low-power electronics. He is proficient in utilizing state-of-the-art methodologies and tools for mixed-signal and analog design, ensuring the development of highly efficient, reliable, and scalable systems.

📖 Publication Top Notes

  • Title: Strategies and techniques for powering wireless sensor nodes through energy harvesting and wireless power transfer
    Authors: R. La Rosa, P. Livreri, C. Trigona, L. Di Donato, G. Sorbello
    Citations: 123
    Year: 2019
  • Title: An energy-autonomous wireless sensor with simultaneous energy harvesting and ambient light sensing
    Authors: R. La Rosa, C. Dehollain, A. Burg, M. Costanza, P. Livreri
    Citations: 45
    Year: 2021
  • Title: A self-powered and battery-free vibrational energy to time converter for wireless vibration monitoring
    Authors: N. Panayanthatta, G. Clementi, M. Ouhabaz, M. Costanza, S. Margueron, …
    Citations: 27
    Year: 2021
  • Title: Advanced monitoring systems based on battery-less asset tracking modules energized through RF wireless power transfer
    Authors: R. La Rosa, C. Dehollain, P. Livreri
    Citations: 24
    Year: 2020
  • Title: A battery-free wireless smart sensor platform with Bluetooth Low Energy connectivity for smart agriculture
    Authors: R. La Rosa, C. Dehollain, M. Costanza, A. Speciale, F. Viola, P. Livreri
    Citations: 20
    Year: 2022
  • Title: An RF-powered FSK/ASK receiver for remotely controlled systems
    Authors: G. Guerra, Ranieri; Finocchiaro, Alessandro; Papotto, Giuseppe; …
    Citations: 20
    Year: 2016
  • Title: Constant current driving device having an improved accuracy
    Authors: R. La Rosa, M.M.A. Sorbera
    Citations: 14
    Year: 2013
  • Title: An RF Wireless Power Transfer system to power battery-free devices for asset tracking
    Authors: R. La Rosa, C. Dehollain, F. Pellitteri, R. Miceli, P. Livreri
    Citations: 13
    Year: 2019
  • Title: Wake-up radio impact in self-sustainability of sensor and actuator wireless nodes in smart home applications
    Authors: L. Perilli, E.F. Scarselli, R. La Rosa, R. Canegallo
    Citations: 11
    Year: 2018
  • Title: An energy autonomous and battery-free measurement system for ambient light power with time domain readout
    Authors: R. La Rosa, P. Livreri, C. Dehollain, M. Costanza, C. Trigona
    Citations: 9
    Year: 2021

Na sun | Sensor | Best Researcher Award

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Assoc. Prof. Dr. Na sun | Sensor | Best Researcher Award

 👤 Assoc. Prof. Dr. Na sun, Shenyang University of Chemical Technology, China

Dr. Sun Na is an Associate Professor at Shenyang University of Chemical Technology, specializing in energy and environment-related high-performance functional materials. Born on June 20, 1990, in Chaoyang, Liaoning, Dr. Sun has a distinguished academic career. She holds a Bachelor’s degree and Master’s degree from Shenyang Chemical University, and a Ph.D. from Nankai University. She has also been a visiting scholar at Limerick University. Her research primarily focuses on molecularly based crystalline materials, the development of metal-organic frameworks (MOFs), and theoretical computational materials chemistry. She is currently leading several research projects, including those funded by the National Natural Science Foundation of China and other prestigious institutions. Dr. Sun is dedicated to advancing technologies for industrial separation and catalytic processes, with particular emphasis on xylene separation and hydrogen production.

Professional Profile

Scopus

🌟  Summary of Suitability for Award

Sun Na is an exceptionally qualified candidate for the Research for Best Researcher Award, based on her notable academic background, significant research contributions, and leadership in scientific projects. As an Associate Professor at Shenyang University of Chemical Technology, she has demonstrated a deep commitment to advancing research in high-performance functional materials, specifically in the fields of energy and environmental technologies. Her educational journey, spanning from a Bachelor’s to a Doctoral degree in the field of chemical engineering, has been marked by mentorship from prestigious professors, including her doctoral advisor, Academician Bu Xianhe.

Her research interests, particularly in the design, synthesis, and application of metal-organic frameworks (MOFs), align closely with cutting-edge developments in material science, including energy storage, carbon capture, and efficient industrial separations.

🎓 Education

Dr. Sun Na’s educational journey began at Shenyang Chemical University, where she earned her Bachelor’s degree in Chemical Engineering (2010-2014). She continued her studies at the same institution, receiving a Master’s degree under the mentorship of Prof. Gao Enjun in 2017. Dr. Sun then pursued her doctoral studies at Nankai University, under the supervision of Academician Bu Xianhe, where she completed her Ph.D. in 2021. During her doctoral studies, she focused on advanced materials and catalysis. In addition, she had the opportunity to broaden her academic experience by serving as a visiting scholar at Limerick University in Ireland in 2019, under the guidance of Academician Michael J. Zaworotko. This diverse academic background has shaped Dr. Sun into a highly skilled researcher and educator in the field of chemical materials science.

💼  Professional Experience

Dr. Sun Na’s professional career includes a series of important academic positions. From 2021 to 2023, she worked as a Lecturer at Shenyang Chemical University, contributing to the College of Science and the School of Science. During this period, Dr. Sun taught courses related to materials science and chemical engineering, fostering the next generation of engineers and scientists. In December 2023, she was promoted to Associate Professor at Shenyang University of Chemical Technology, where she continues her research and teaching. Dr. Sun is recognized for her leadership in various research projects, particularly those focused on metal-organic frameworks (MOFs), catalytic materials, and energy-efficient separation technologies. She has been awarded funding for several major projects, including those supported by the National Natural Science Foundation of China, demonstrating her growing influence in the field.

🏅Awards and Recognition

Dr. Sun Na has earned numerous accolades throughout her academic career. Notably, she is the recipient of several prestigious grants, such as the Youth Project of the National Natural Science Foundation of China (2024-2026), where she chairs a project focused on xylene separation using metal-organic frameworks. She has also received funding from the China Postdoctoral Science Fund and the Joint Fund of the Liaoning Provincial Natural Science Foundation. Dr. Sun’s contributions to the field have been recognized by key academic institutions, including Shenyang Chemical University and Nankai University. In addition to her research achievements, she was honored as a leader in the ‘Excellent Youth’ Support Programme, which funds high-level research in advanced materials. Dr. Sun’s work is widely recognized for its innovation in energy-efficient materials and catalytic processes, particularly in industrial applications.

🌍 Research Skills On Sensor

Dr. Sun Na possesses a broad array of research skills, particularly in the design and synthesis of functional materials. Her expertise includes working with molecularly-based crystalline materials, metal-organic frameworks (MOFs), and computational materials chemistry. Dr. Sun excels at developing innovative adsorbents for gas storage and separation, particularly for hydrogen, methane, and carbon dioxide, as well as improving the efficiency of industrial processes. She has experience in computational catalysis, enabling her to simulate and optimize catalytic processes for biomass conversion, hydrogen production, and ammonia synthesis. Dr. Sun’s knowledge also spans the theoretical aspects of materials chemistry, where she applies advanced computational methods to understand material properties at the molecular level. Her ability to bridge theoretical research with practical applications in environmental and energy technologies makes her an exceptional leader in her field.

📖 Publication Top Notes

  • Composition and Morphological Characteristics of Extracellular Polymeric Substances of Different Tolerant Bacteria Under Perfluorobutanesulfonic Acid (PFBS) Stress
    Authors: Tang, R., Sun, L., Yu, G., Wang, X., Rong, L.
    Journal: Toxics, 2024, 12(11), 797
    Open Access: Yes
  • Preparation of Slow-Release Potassium Persulfate Microcapsules and Application in Degradation of PAH-Contaminated Soil
    Authors: Wu, H., Yang, Y., Sun, L., Wang, H., Wang, X.
    Journal: Water (Switzerland), 2024, 16(21), 3045
    Open Access: Yes
  • Ecotoxicity of Thallium to Two Soil Animal Species with Different Niches and Modification by Organic Materials
    Authors: Liu, S., Sun, L., Liang, F., Li, Z., Wu, L.
    Journal: Science of the Total Environment, 2024, 948, 174733
  • Adsorption Behaviour and Mechanism of Polycyclic Aromatic Hydrocarbons onto Typical Microplastics in a Soil Solution
    Authors: Li, Z., Sun, L., Wang, H.
    Journal: International Journal of Environmental Analytical Chemistry, 2024, 104(17), 5638–5653
    Open Access: Yes
  • Degradation of DDT by a Novel Bacterium, Arthrobacter globiformis DC-1: Efficacy, Mechanism and Comparative Advantage
    Authors: Wang, X., Oba, B.T., Wang, H., Wu, H., Sun, L.
    Journal: Water (Switzerland), 2023, 15(15), 2723
    Citations: 6
  • Using Organo–Mineral Complex Material to Prevent the Migration of Soil Cd and As into Crops: An Agricultural Practice and Chemical Mechanism Study
    Authors: Zheng, X., Zhao, M., Sun, L., Oba, B.T., Ding, H.
    Journal: Science of the Total Environment, 2023, 883, 163662
    Citations: 7
  • Estimation of Multi-Media Metal(loid)s around Abandoned Mineral Processing Plants Using Hyperspectral Technology and Extreme Learning Machine
    Authors: Bian, Z., Sun, L., Tian, K., Huang, B., Wu, L.
    Journal: Environmental Science and Pollution Research, 2023, 30(7), 19495–19512
    Citations: 7
  • Anaerobic-Aerobic Bioremediation of DDT-Contaminated Soil and the Compound Strengthening of Rhamnolipid-Nano Zero-Valent Iron-Sodium Pyruvate
    Authors: Han, Y., Sun, L., Lü, L., Wang, X., Wu, H.
    Journal: Journal of Agro-Environment Science, 2023, 42(4), 799–810
  • Effects of Perfluorobutanesulfonic Acid on the Extracellular Polymeric Substances of PFBS-Resistant Strains
    Authors: Yu, G., Sun, L., Tang, R., Han, Y.
    Journal: Journal of Agro-Environment Science, 2023, 42(5), 1032–1041
  • In-situ Co-Remediation of PAHs Contaminated Agricultural Soil Using Blood Meal and Celery: An Agricultural Greenhouse Field Study
    Authors: Wu, H., Wang, H., R. Walker, T., Wang, Y., Sun, L.
    Journal: Soil and Sediment Contamination, 2023, 32(7), 878–892