Vasilis Lionas’ Post

Call for Papers – 'Nanomaterial-enabled Gas Sensing Microsystems' has emerged as a promising area of research, leveraging the unique properties of nanomaterials to develop highly sensitive and selective gas sensors. Read more here: https://bit.ly/4ea8iPQ. #CallForPapers #Nanomaterial #GasSensors

I'm thrilled to announce the publication of my latest paper titled "Winding Selection for Wound-Rotor Synchro" in IEEE Sensors Journal! 💡 The present study examines how the accuracy of Wound-Rotor (WR) synchro used in industrial applications is affected by different winding arrangements. SYNCHRO, a type of position sensors, is known for its ruggedness and robustness to vibration, and resistance to temperature variations, making it reliable for various industrial applications such as #EVs. In this paper, the WR-synchro with ontooth winding is introduced. The study also evaluated the impact of the damper winding. A special thanks to Prof. Zahra Nasiri-Gheidari, for their invaluable guidance throughout this work. For a comprehensive understanding of our research, the full text is accessible here: ✅ https://lnkd.in/ecqyhJ6d #Sensors #Synchro #IEEExplore #Innovation

🌟 Highly Cited Paper Spotlight! 🌟 A Review on the Progress of Optoelectronic Devices Based on TiO₂ Thin Films and Nanomaterials        By Shunhao Ge et al. This review explores the advancements in #optoelectronic devices based on TiO₂ thin films and #nanomaterials, detailing their unique photoelectric performances and applications in areas like sensors, #photodetectors, LEDs, and more. It discusses the characteristics and improvements of TiO₂ nanostructures, including their role in biosensors and photovoltaic devices, with an emphasis on enhancing device performance and stability. Access the full paper at: mdpi.com/2210074

🔍 #IndustryInsider: Photonic Crystals 🌈 Photonic Crystals are at the forefront of manipulating light for advanced optical applications. From enhancing displays to improving sensors, these materials are key to the future of #photonics. Discover how Photonic Crystals can elevate your projects. https://bit.ly/4dP3fUi

Our new Heterogenous Adaptively Produced Photonic Interfaces (HAPPI) program sees light as the ideal carrier of information and looks to bump up information movement density within a microsystem via #photonic signaling. To achieve disruptive increase in photonic link density, the program will work on developing 3D optical routing within the photonic chip and between chips, allowing 3D stacking through advanced optical packaging. With HAPPI technologies, our goal is to enable very-large scale integrated (VLSI) photonic circuits with thousands of components to directly impact both commercial and defense applications. These circuits could deliver disruptive advances for signal processing, compact sensors, microwave applications, and quantum systems. Get more info and register for the Sept. 16 Proposers Day on sam.gov: https://lnkd.in/eH36VPXM #opticalrouting #photonicintegratedcircuits #photonicpackaging

📖📖📖Highly-Cited Paper #Review #recommendation Current Progress of Magnetoresistance Sensors by Songlin Yang and Jin Zhang. 👉https://lnkd.in/dkZVcbUr   MDPI, Western University #Magnetoresistance #sensors #graphene #magnetic #nanoparticles #biomedical #sensing #openaccess    This article belongs to the Special Issue Advances in Magnetic Sensors with Nanocomponents, https://lnkd.in/dV-2U97G

The latest issue of IEEE Sensors Journal is LIVE! Access the featured article entitled "Fabrication and Electromechanical Characterization of Silicon Nanomechanical Membrane Flexure MEMS Sensor for Gas Sensing Applications" and the rest of the issue here: https://loom.ly/h4UWvk0 #IEEESensorsJournal #Sensors

Hello my network, I want to inform you that the next LinkedIn article that I will post will be about ferroelectric photovoltaic effect exhibited by some ferroelectric semiconductors such as PTZ (Lead zirconate titanate) which can be suitable for memory devices and sensors.

The MS-IMU3050 is an Inertial Measurement Unit that provides a smaller, lower power, and cost-effective alternative to Fiber Optic Gyro (FOG) based IMUs and other high performance MEMS IMUs. The IMU contains triaxial MEMS gyros, accelerometers, and magnetometers that are extensively tested and calibrated over the full operational temperature range to ensure the highest performance and robust operation. The IMU employs advanced algorithms and sensor architectures to achieve a gyro bias stability of 0.3 degrees per hour and an accelerometer bias stability of less than 3 micro g. Learn more here: https://hubs.li/Q02ryDH30 #InertialLabs #Memsense #IMU #gyroscope #accelerometers #magnetometers #sensors #stability #highperformance

#FeaturePaper #review Recent Advances in Optical, Electrochemical and Field Effect pH Sensors by Federico Vivaldi, Pietro Salvo, Noemi Poma, Andrea Bonini, Denise Biagini, Lorenzo Del Noce, Bernardo Melai, Fabio Lisi, and Fabio Di Francesco. 👉https://lnkd.in/g955eD88 MDPI, Università di Pisa, UNSW #pH #sensors #biosensors #optical #voltammetric #potentiometric This article belongs to the Collection pH Sensors, Biosensors and Systems, https://lnkd.in/dhtX9pBu