Making some #microfluidic droplets, that you can just about see being formed at the end with the help of the camera frame rate not being great 😅
#Microbiology #Algae
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Hashtag
#Microfluidic
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#OEA_highlight Tunable compound eyes with coaxial lens-on-lens ommatidia for cooperative bi-focal imaging doi.org/10.29026/oea... by Prof. #Qing_Cai #Yong_Lai_Zhang #Jilin_University #compound_eye #femtosecond #laser #processing #lens #tunable #imaging #microfluidic #chip
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Join us at #Analytica 2026 in Munich🥨
April 24–27 | Hall A2 | 307
Discover ibidi solutions for cell-based assays, live cell #imaging, & #microfluidic experiments, and connect with our team to discuss your applications💡
You can browse our flyers: zurl.co/7k8Hq
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Join the 16th ibiTea☕
How can monocytes improve tumor #drugdelivery?
Dr. Bill Cheng from National Chung Hsing University presents a 3D #microfluidic model where adhesive #liposomes hitchhike on monocytes to enhance tumor #targeting.
📅 March 25 🕙10 AM CET
Register now: zurl.co/kq6ge
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Self-propelled Leidenfrost droplets on femtosecond-laser-induced surface with periodic hydrophobicity gradient
This study applies #femtosecond laser to create SPHG surfaces, enabling directional self-propulsion of #Leidenfrost droplets by modulating vapor layers and viscous forces, offering a method to control droplet motion & broaden #microfluidic applications.
#IJEM: doi.org/10.1088/2631...
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🎉 Congratulations to Leeya Engel & Alexander R. Dunn from @stanforduniversity.bsky.social 🏛️on their recent article published in @cp-iscience.bsky.social from @cellpress.bsky.social: “A #microfluidic platform for anterior–posterior human endoderm patterning via countervailing #morphogen gradients"
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Femtosecond laser-induced nanoparticle implantation into flexible substrate for sensitive and reusable microfluidics SERS detection
This #IJEM study introduces a femtosecond laser-implanted Au-NPA #Microfluidic system, achieving high #SERS detection sensitivity and superior reusability for real-time monitoring of chemical and biological analytes.
#OpenAccess: doi.org/10.1088/2631...
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A new radio frequency #RF #sensor can detect the shape of gold #nanoparticles, making characterization easier, faster, and more economical. The novel #microfluidic device contains a U-cavity and can be manufactured easily via 3D printing. Read more: ieee-sensorsalert.org
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Researchers have developed a low-cost, #microfluidic device to characterize gold #nanoparticles based on shape. The U cavity #sensor can be manufactured using 3D printing and offers faster, cheaper, and less resource intensive characterization.
For more, subscribe to ieee-sensorsalert.org
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[Open Access 2024]
SARS-CoV-2 detection by using graphene FET arrays with a portable microfluidic measurement system
2024 Jpn. J. Appl. Phys. 63 016502
iopscience.iop.org/article/10.3...
#JJAP
#physics
#openaccess
#SARS
#CoV2
#FET
#microfluidic
#virus
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🔊🥇Great news from our recent Czech Academy of Sciences evaluation: our Bioelectrodynamics 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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✨In Special Issue: Advanced Electronic Chemicals✨
A new study reports a portable #electrochemical #microfluidic workstation that enables accurate, low-volume online detection of electroplating additives (mean error <10%), replacing the manual CVS in lab analysis.
👉 doi.org/10.1039/D5IM...
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In our recent study, we present a compact 90–140 GHz band-stop filter on transparent quartz. The strip-only design is tiny, high-performing, and ideal for #THz & #5G/#6G tech, with future work exploring #microfluidic integration. Big kudos to Jaroslav Havlíček and all co-authors!
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Congratulations to the @gleghornlab.bsky.social on this excellent feature!
Instead of experimenting on animals, Jason Gleghorn's team is using #microfluidic systems.
Research labs across four continents are seamlessly using these chips to study #WomensHealth. 🧪
youtu.be/3fk7c0uFdWQ?...
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Chung-Ang University Pioneers Advanced Microfluidic Sweat Analysis for Health Monitoring #South_Korea #Seoul #Chung-Ang_University #microfluidic #sweat_analysis
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Microsoft Unveils Microfluidic Cooling to Boost AI Chip Power
Microsoft unveiled a microfluidic cooling system that channels liquid through silicon grooves, cutting temperature rise by 65% and dissipating heat up to three times faster than cold plates. getnews.me/microsoft-unveils-microf... #microfluidic #cooling
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This study describes a six-unit #microfluidic chip to comprehensively analyze sepsis patients’ white blood cell activity, improving monitoring of disease progression and severity.
In @talantaeditors.bsky.social
www.sciencedirect.com/science/arti...
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In this study, researchers at @ttu.edu @ttuhsc-gsbs.bsky.social designed a 3D-printed #microfluidic chip that diagnoses sepsis faster than standard tests by using antibodies to capture sepsis-affected cells.
www.sciencedirect.com/science/arti...
8/
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Microsoft unveils microfluidic cooling breakthrough for AI chips
Microsoft unveiled a prototype microfluidic cooling system that etches coolant channels onto GPUs, cutting max temperature rise by about 65 %. getnews.me/microsoft-unveils-microf... #microsoft #microfluidic
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Things to do in Ann Arbor
- Natural history museum
- Art museum
- Putting #algae into #microfluidic droplets 🦠
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A new study demonstrates that oil saturation during the process of constant volume depletion of gas condensate within porous media is lower than that observed in the PVT cell. #openaccess at www.sciencedirect.com/science/arti... #naturalgas #Condensategas #Microfluidic #CVD
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The work applied a #microfluidic system replicated from molds made on 6 inch wafers using e-beam lithography precision fabrication to identify within 2 h, bacterial strands of #E.coli, #K.pneumoniae, or #E.faecalis in real human blood samples.
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that would provide developers/users with a set of compatible auxiliary components for electronics-intensive #microfluidic setups.
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The Future of #Rheology seminar series continues Thursday with two great speakers Barrett Smith (#Alginate #Gelation in #Microfluidic Flow) and Chenxian Xu (Surface Forces Sculpt Nanoscopic Mesas in #Micellar #Foam Films). Join us on zoom at 1pm EST.
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🌍🐁ibidi joins the #3Rs Collaborative & the Microphysiological Systems (MPS) Initiative🐒
🫁 #MPS are mini in vitro models that mimic organs. They align with ibidi’s expertise in #microfluidic systems and cell-based assays, driving #ethical and #innovative science🌿
👉 3rc.org
#sustainability
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Researchers from the SNI network improved #acoustic #tweezers by combining a reusable sonic chip with a disposable #microfluidic chip, enabling more efficient, cost-effective experiments while reducing cross-contamination. 🧪
@unibas.ch @psich.bsky.social
nanoscience.unibas.ch/en/news/deta...
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A portable #device for probiotic counting and viability assessment based on #microfluidic chip and image recognition #iMetaOmics onlinelibrary.wiley.com/doi/10.1002/...
#probiotics #biosensor #microbiome
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Human #microfluidic & #InSilico models are also being used to study viral hepatitis and develop drugs and vaccines.
CN Bio offers a liver-on-a-chip that can recapitulate the entire #HBV life cycle & can be used to study multiple cell types & endpoints.
cn-bio.com/applications...
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Figure 1 from the linked preprint: "OrganoidChip+’s dimensions and principle of work. (a) The chip schematic depicting its height dimensions and various compartments such as the inlet, perfusion channel (PC), culture chamber (CC), trapping areas (TAs) consisting of staging chambers (SCs) and immobilization chambers (ICs), filter channels (FCs), exit chamber (EC), and serpentine exit channel. The serpentine exit channel with a length of 43.5 mm and a width of 215 µm generates a hydrodynamic resistance of 3 × 1012 (N.s/m5) to avoid high flow rates and shear stress inside the chip. (b) Various steps for cell seeding (i), organoid culture (ii), and immobilization (iii) in the chip. (i) For seeding, the Luer stub is inserted into the culture chamber, the cell suspension is dispensed with a rotating movement to fill the entire culture chamber. (ii) Organoids grow efficiently while accessing nutrients from all direction surrounding the culture chamber. (iii) Matrigel is digested, and organoids are pushed into the TAs for immobilization while some organoids are natively immobilized by adhering to the glass in the culture chamber. (c) Side view of the same steps depicted in (b). The organoids in the culture chamber are imaged using brightfield microscopy every day to track their growth. After 7 days of culturing, Matrigel is digested to enable organoid immobilization within TAs. After immobilization, organoids can be fluorescently labelled and imaged at high-resolution on the chip. Scale bars represent 1 mm in (a-b) and 400 µm in (c)."
You've heard of #organoids and #organchips, but what about an OrganoidChip+? 🧪
Scientists at @utbiomedical.bsky.social & UGA developed this new, imaging-ready #microfluidic platform for research, drug screening, & disease modeling.
Preprint by Moshksayan et al.
www.biorxiv.org/content/10.1...
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