Engineering electromagnetic field-biomatter interactions for future biomedicine and nanotechnology Blusky: bioed.bsky.social @UFE_AVCR @CzechAcademy
Joined August 2016
- Tweets 733
- Following 527
- Followers 566
- Likes 1,214
404 Photos and videos
May 29
📣🙏We're pleased to welcome Roshan V. Jagadeesha to our team! We're excited to have you on board and look forward to working together.
Welcome, Roshan! 🎉
#NewTeamMember #WelcomeAboard #TeamGrowth #NewColleague #TeamSpirit #ResearchTeam #ScienceCommunity
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Apr 28
🚨From presentations to great conversations 💡
Michaela Poplová, Kateřina Červinková, and @mcer33 had a wonderful time at the #QuantumBiology Forum in Washington, with many inspiring and fruitful discussions along the way.
biophotoniq.net/
Apr 10
🛎️Conference season is on 🌍
Michaela Poplová, Kateřina Červinková and @mcer33 will represent our team next week in Washington at the #Quantum Biology Forum and #Optica Level Up.
Wishing them great conversations and exciting discoveries!💡👩🏫
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19 Dec 2025
We stepped out of the office and into the brewery 🍺Learning, laughing, and bonding at @Plzen_Prazdroj -@Pilsner_Urquell brewery reminded us that strong teams are made from shared experiences—preferably well brewed ones. 🤩🥇 #TeamBuilding #PilsnerUrquell #BeerWithTheTeam 🍻
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18 Dec 2025
🔬⚡We introduce a calibrated, non-contact sub-THz probe station for microfluidic chips, delivering highly repeatable liquid and protein measurements across the F-band, with scalability toward 1 THz. Congratulations to @DanielHavelka5 and all the authors on this excellent work!👇
9 Dec 2025
🔊🔬⚡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…
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15 Dec 2025
🔬⚡We built a precision alignment workflow for integrating microfluidic flow-cells on sub-THz chips. The result: clear, repeatable transmission signatures for ethanol and protein solutions, with low uncertainty and strong system-level selectivity. 🔎📖👉ieeexplore.ieee.org/document…
9 Dec 2025
🔊🔬⚡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…
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12 Dec 2025
⚡🔬We bridge the sub-THz gap with a broadband, non-contact on-chip microfluidic probing platform above 110 GHz. It enables accurate VNA-grade liquid and biomolecular spectroscopy for next-gen 5G/6G and lab-on-chip systems.🔎📖👉ieeexplore.ieee.org/document…
9 Dec 2025
🔊🔬⚡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…
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Bioelectrodynamics retweeted
10 Dec 2025
Plants glow—very faintly, but measurably. Early photomultiplier research revealed this ultra-weak light. Read the classic study: doi.org/10.1007/BF02820374
#Bioluminescence #ScienceHistory #Biophotonics #PlantGlow
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Bioelectrodynamics retweeted
5 Dec 2025
Your skin gives off a tiny natural glow — and it reveals your oxidative stress levels. Our new research shows how we can actually image it. Paper:doi.org/10.1021/acs.analchem…
#biophotonics #oxidativestress #chemiluminescence #science
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9 Dec 2025
🔊🔬⚡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…
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5 Dec 2025
🔊🔬⚡We present a fast and accurate method to extract complex permittivity from broadband S-parameters—validated up to 50 GHz and ideal for real-time, noninvasive analysis of tiny protein samples. Big kudos to Petr Kurka and all the authors for their exceptional work.🥇👏
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21 Nov 2025
🔊🔬⚡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…
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4 Dec 2025
🎨A little glow, a little competition, and a team that always brings the fun 🥇⛳️🤩
#TeamOuting #NeonMinigolf #WorkCrew #BrightMoments #TeamEnergy
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3 Dec 2025
🔊🔬⚡we discovered that calibrating our permittivity-extraction method at ~75% of the biomolecular concentration range gives the best accuracy. It captures the linear S-parameter behavior while avoiding nonlinear distortion—improving consistency across samples. 🔎📖👇
21 Nov 2025
🔊🔬⚡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…
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2 Dec 2025
Great news from our recent Czech Academy of Sciences evaluation: our BioED team earned exceptional marks. Most of our outputs were rated outstanding, and our PEF lab-on-chip, microwave microfluidic sensing, and BAL imaging platforms were highlighted as unique, high-impact tech.👏
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1 Dec 2025
🔊🔬⚡We validated our new complex-permittivity extraction method using a simple, robust PCB-based CBCPW—no microfluidics needed. Testing amino-acid solutions up to 50 GHz showed highly reliable, repeatable results.🔎📖👉ieeexplore.ieee.org/document…
21 Nov 2025
🔊🔬⚡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…
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28 Nov 2025
In our recently study, we derived field-shape factors that map how EM fields distribute inside tiny samples on a transmission line—enabling precise broadband permittivity extraction from just microliters. A key step toward faster, smaller-volume biomolecular characterization.📖👇
21 Nov 2025
🔊🔬⚡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…
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26 Nov 2025
🔊🔬⚡We solved a key challenge in broadband permittivity extraction: selecting the physically correct solution from a multi-branch numerical equation. This lets us reliably compute the propagation constant directly from S-parameters—boosting accuracy for tiny bio-samples.🔎📖👇
21 Nov 2025
🔊🔬⚡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…
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25 Nov 2025
🚨Good news🚨: Our 42nd webinar is already on YouTube 👉youtu.be/bpFdrOckzw8 📊⚡🖥️
3 Nov 2025
🚨 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
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24 Nov 2025
🔊🔬⚡We developed a fast, accurate method for broadband #permittivity extraction using just microliters of #biomolecular samples. It overcomes the limits of current techniques and enables real-time dielectric monitoring in water-based environments.🔎📖👉ieeexplore.ieee.org/document…
21 Nov 2025
🔊🔬⚡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…
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21 Nov 2025
🔊🔬⚡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…
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