Bioelectrodynamics

🔊🔬⚡We developed a sub-THz probe station for contact-free liquid sensing in transparent microfluidic chips. F-band tests show clear, stable signals—enabling reliable dielectric spectroscopy up to 1 THz.🔎📖👉ieeexplore.ieee.org/document/11153…

🔊🔬⚡We developed a sub-THz probe station for contact-free liquid sensing in transparent microfluidic chips. F-band tests show clear, stable signals—enabling reliable dielectric spectroscopy up to 1 THz.🔎📖👉ieeexplore.ieee.org/document/11153…

🔊🔬⚡We developed a sub-THz probe station for contact-free liquid sensing in transparent microfluidic chips. F-band tests show clear, stable signals—enabling reliable dielectric spectroscopy up to 1 THz.🔎📖👉ieeexplore.ieee.org/document/11153…

🔊🔬⚡In our recently published work, we present a fast, broadband method to extract complex #dielectric #permittivity from μL-scale #biomolecular samples using a CBCPW. It offers accurate, sample-efficient characterization for #biomedical #research. 🔎📖👉ieeexplore.ieee.org/document/10973…

🔊🔬⚡In our recently published work, we present a fast, broadband method to extract complex #dielectric #permittivity from μL-scale #biomolecular samples using a CBCPW. It offers accurate, sample-efficient characterization for #biomedical #research. 🔎📖👉ieeexplore.ieee.org/document/10973…

🔊🔬⚡In our recently published work, we present a fast, broadband method to extract complex #dielectric #permittivity from μL-scale #biomolecular samples using a CBCPW. It offers accurate, sample-efficient characterization for #biomedical #research. 🔎📖👉ieeexplore.ieee.org/document/10973…

🔊🔬⚡In our recently published work, we present a fast, broadband method to extract complex #dielectric #permittivity from μL-scale #biomolecular samples using a CBCPW. It offers accurate, sample-efficient characterization for #biomedical #research. 🔎📖👉ieeexplore.ieee.org/document/10973…

🔊🔬⚡In our recently published work, we present a fast, broadband method to extract complex #dielectric #permittivity from μL-scale #biomolecular samples using a CBCPW. It offers accurate, sample-efficient characterization for #biomedical #research. 🔎📖👉ieeexplore.ieee.org/document/10973…

YouTube

🚨 Webinar Alert 🚨 Join us for our 42th webinar on Monday, November 10., at 14:00 CET! 🎙️Lecturer: Gyula Polónyi from University of Pécs 📊Topic: Alternate Routes for High Field #Terahertz Pulse Generation and Applications Register here: shorturl.at/QhkZh @CzechUrsi

🔊🔬⚡In our recently published work, we present a fast, broadband method to extract complex #dielectric #permittivity from μL-scale #biomolecular samples using a CBCPW. It offers accurate, sample-efficient characterization for #biomedical #research. 🔎📖👉ieeexplore.ieee.org/document/10973…

🔊⚡🔬In our recent study, we built a tiny filter for #subTHZ waves (90–140 GHz) on transparent glass — linking light and high-frequency tech. This could boost #6G networks, #biosensing & advanced #imaging! 🥇🔎📖👉nature.com/articles/s4159…

🔊⚡🔬In our recent study, we built a tiny filter for #subTHZ waves (90–140 GHz) on transparent glass — linking light and high-frequency tech. This could boost #6G networks, #biosensing & advanced #imaging! 🥇🔎📖👉nature.com/articles/s4159…

🔊⚡🔬In our recent study, we built a tiny filter for #subTHZ waves (90–140 GHz) on transparent glass — linking light and high-frequency tech. This could boost #6G networks, #biosensing & advanced #imaging! 🥇🔎📖👉nature.com/articles/s4159…