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#Microfluidics

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#Microfluidics Reel by @teammayku - People often ask us what makes pressure forming better than vac forming. The simple answer is detail. And lots more of it. This is a PDMS #microfluidi — People often ask us what makes pressure forming better than vac forming. The simple answer is detail. And lots more of it. This is a PDMS #microfluidics chip cast from a 1.5mm EVA mold and adhered to glass by Vittorio Saggiomo. AND WE LOVE IT. Drop us a line if you’re interested to hear more about microfluidics applications. #nanotechnology #advanceddiagnostics

#Microfluidics Reel by @rowancheung (verified account) - Microsoft has successfully developed and tested a microfluidics cooling system that directly cools AI chips by etching microscopic channels into the s — Microsoft has successfully developed and tested a microfluidics cooling system that directly cools AI chips by etching microscopic channels into the silicon itself. The technology removes heat up to three times more effectively than current cold plate systems and reduces maximum chip temperatures by 65 percent. The breakthrough addresses a critical industry challenge as next-generation AI chips generate unprecedented heat levels that could limit progress within five years. Microsoft used AI to optimize bio-inspired channel designs resembling leaf veins. The system has been successfully tested running real Microsoft Teams workloads, demonstrating practical viability beyond laboratory conditions for future datacenter deployment. #trendingreels #ai #datacenter #silicon #tech

#Microfluidics Reel by @advancedportfolionews - 3D printing is revolutionizing microfluidics. This capillaric circuits is a self-contained systems 3D printed with readily available 3D printers using — 3D printing is revolutionizing microfluidics. This capillaric circuits is a self-contained systems 3D printed with readily available 3D printers using a specialized ink. This innovation introduces robust capillary valves, circular conduits, and eliminates external paper pumps. It enables quick, low-cost, and distributed manufacturing of fully functional microfluidic systems in under 30 minutes. Find out more in “Digital Manufacturing of Functional Ready-to-Use Microfluidic Systems” published in Advanced Materials DOI: 10.1002/adma.202303867

#Microfluidics Reel by @datroncnc - Did you know microfluidics is transforming medical research, diagnostics, and lab-on-a-chip technology by controlling fluids on a microscopic scale? — Did you know microfluidics is transforming medical research, diagnostics, and lab-on-a-chip technology by controlling fluids on a microscopic scale? From groundbreaking disease detection to personalized medicine, the potential is limitless! But here’s the challenge: crafting microfluidic devices with the precision they demand. That’s where DATRON steps in. 🚀 The DATRON neo is more than a CNC machine—it's your lab's new best friend. Compact, fast, and designed for precision prototyping, it empowers your team to develop intricate components in-house and on-demand. 🛠️ No delays, no compromises. 💡 Ready to take your microfluidics production to the next level? 👉 Learn more by visiting our website! (Link in bio)

#Microfluidics Reel by @3dheals - Professor Christopher Moraes shares how he's integrating nanoporous membranes and bioengineered parts into cutting-edge microfluidic devices.
Now #ond — Professor Christopher Moraes shares how he’s integrating nanoporous membranes and bioengineered parts into cutting-edge microfluidic devices. Now #ondemand : https://3dheals.com/microfluidics-devices-and-3d-printing/ #Microfluidics #3DPrinting #Bioengineering #Innovation #LabTech

#Microfluidics Reel by @apeiron_arche - #77 - Embedded Microchannel Cooling Materials

Some engineered materials contain networks of microscopic channels that allow fluid to move through the — #77 — Embedded Microchannel Cooling Materials Some engineered materials contain networks of microscopic channels that allow fluid to move through them, carrying heat away from the regions where it forms. As the fluid flows, it absorbs thermal energy from the surrounding solid and transports that heat outward, helping the material maintain a stable internal temperature. The key behavior to notice is how cooling happens from the inside rather than only at the surface, giving the system a more efficient way to manage heat. The arrangement and size of these microchannels can be tuned to guide how the fluid moves, whether in straight lines, branching paths, or tight curves. A helpful way to picture this is to imagine tiny rivers running through a landscape, each one collecting warmth and carrying it downstream. Even though the channels are extremely small, their placement strongly influences how quickly heat is redistributed throughout the material. This internal design demonstrates how geometry alone can shape thermal behavior in compact systems. Instead of relying solely on external heat sinks, the material itself becomes part of the cooling strategy. This is part of today’s ten-reel series exploring mind-bending materials. Follow and watch the next reel in this series for more such mind-bending inventions. Source: Thermal management research and microfluidic materials engineering. Disclaimer: Educational explanation based on established scientific principles; not depicting commercial product performance. AI Visual Notice: Visuals are AI-generated representations meant for simplified scientific illustration. #science #materials #microfluidics #thermalengineering #futuretech #innovation #visualphysics #engineering #learnontheinternet

#Microfluidics Reel by @ioana.vreme.moser - Throwback Form for Fluid Computer @klangmoorschopfe Where I had the pleasure presenting in a barn a part of my reasearch on fluidic geometries.

Form — Throwback Form for Fluid Computer @klangmoorschopfe Where I had the pleasure presenting in a barn a part of my reasearch on fluidic geometries. Form for Fluid Computer displays logic gates, fluidistors (fluidic transistors) in a feedback loop. All these geometries are based on historical patents and books. With a focus on fluidics as alternatives to electronics, the project aims to unravel parallel histories and highlight the beauty and resilience of fluidic systems. Research supported by @tamlablinz @grandgarage_eu @stiftungkunstfonds Check also @norientsounds for an audio essay on Knowing Your Tools with @alienationist_ #alternativecomputation #fluidic #fluidics #noelectronic #ludite #oldtechnology #vintagecomputer #vintagecomputing #obsolete #watercomputer #liquidcomputer #microfluidics #kinetic #kinetikart #soundart #soundobject #soundinstallation #artisticresearch #research #artscience #artsciencetechnology #klangmoorschopfe

#Microfluidics Reel by @biohub (verified account) - Research + Engineering = Accelerating Science. Ben Cosgrove is taking a unique approach to understanding muscle development. Using microfluidic device — Research + Engineering = Accelerating Science. Ben Cosgrove is taking a unique approach to understanding muscle development. Using microfluidic devices, he is able to isolate and measure the genes in individual cells and learn how they are involved in growing muscles. This research has the potential to lead to breakthroughs in our understanding of human biology and treating pediatric diseases like muscular dystrophy. #SingleCell #Microfluidics #MuscularDystrophy #CellBiology #Science #PediatricDisease #Biomedicine

#Microfluidics Reel by @life_and_sunshine (verified account) - Academia vs. industry! 🤓 What does a day in the life really look like?! 🤔 Big shout out to @fluigent_smartmicrofluidics for always being amazing to — Academia vs. industry! 🤓 What does a day in the life really look like?! 🤔 Big shout out to @fluigent_smartmicrofluidics for always being amazing to work with!! 🤩 What similarities and differences did you spot? 😁 ☀️ ☀️ ☀️ Fluigent workers get a later start to the day 🌇 and their tasks are more versatile and collaborative 😁 They don’t only do research 🧬 but also do product development and marketing! 😃 Whereas my day consists mostly of lab work and data analysis 👩🏼‍🔬 So I’m a bit more specialized but at Fluigent they get to work on a broader variety of things 😊 ☀️ ☀️ ☀️ #fluigent #collab #dayinthelife #ditl #academia #industry #academiavsindustry #similarities #differences #microfluidics #dayintheoffice #whatsitlike #phd #phdlife #phdstudent #phdjourney #phdproblems #phdchat #phdcandidate #phdstudentlife #phdlifestyle #phdresearch #phdstudentsofinstagram #phdthesis #phdwriting #phdstruggles #phdrooftop #phdstudents #phdmotivation #phdlife🎓

#Microfluidics Reel by @davidsunkong - TL;DR: digital microfluidics to synthesize proteins designed by students for phage therapy!

For the first time in our synthetic biology course @howto — TL;DR: digital microfluidics to synthesize proteins designed by students for phage therapy! For the first time in our synthetic biology course @howtogrowalmostanything, we worked together on a global, collaborative group project! Students at @mitmedialab, Harvard, and around the world designed proteins that could be useful to address the emerging global threat of antimicrobial resistance (AMR)—-when bacteria and viruses develop resistance to medicines, making infections harder to treat and increasing the risk of disease spread, severe illness, and death. The students designed ‘lysis proteins’ for bacteriophage, which are a promising therapy for treating antimicrobial resistant bacteria. We worked with @twist_bioscience to synthesize the students’ lysis protein DNA designs, and then used the #Nuclera digital microfluidics platform to express the lysis proteins on chip! In this video, you are watching the students’ DNA constructs being split into pixel level droplets and then mixed with other reagents so the students’ lysis proteins can be expressed. Droplets of ‘cell-free lysates’ are on the right side of the device and move into the 192-pixel array, and then droplets with the students’ DNA constructs are moved from the top and bottom of the device and mixed with the cell-free blends. The mixtures are incubated so the lysis proteins can be synthesized, and are then mixed with a detector protein (green fluorescent protein, ‘GFP’). The device then measures the fluorescence levels of each pixel so we can see which student designs produced the most folded protein! This global group project is an example of what is possible when we bring together creative minds from all around the world with cutting edge tools and technologies to work on great science that can truly benefit humanity. We couldn’t be more proud of our #HTGAA students, and are excited to continue working on this research project together in the months ahead! Thanks so much to our friends at #Nuclera, @twist_bioscience, and @valleydao for making this project possible! #syntheticbiology #synbio #biodesign #microfluidics #digitalmicrofluidics #phagetherapy #bacteriophage #antimicrobialresistance

#Microfluidics Reel by @nhmicro - Can you see the 70 micron holes?

This part, made from PCTFE, is a microfluidics component used in the medical/life science industry.

Microfluidic p — Can you see the 70 micron holes? This part, made from PCTFE, is a microfluidics component used in the medical/life science industry. Microfluidic parts are really challenging for many different reasons- small features, tight tolerances and stringent requirements around burrs, surface finishes and cleanliness. A significant portion of the work we do is in this field, manufacturing molds, as well as final plastic parts. Sometimes the QC, cleaning, packaging, documentation and use-case-testing and validation takes longer than making the part! Josh.

#Microfluidics Reel by @science.sbmedia - 🦠 Microorganisms have evolved into an incredible variety of forms, each adapted to their environment in unique ways. Some, like rotifers, possess str — 🦠 Microorganisms have evolved into an incredible variety of forms, each adapted to their environment in unique ways. Some, like rotifers, possess structures that might resemble a spinning sawblade but are actually coronal cilia, specialized ciliary bands used for movement and feeding. These synchronized cilia create water currents, drawing in food while propelling the organism forward. The structure of coronal cilia varies across species, reflecting different ecological adaptations. Beyond biology, their efficiency in fluid dynamics has even inspired microfluidic engineering, helping develop systems that control tiny liquid flows, such as so-called "lab-on-a-chip" devices. ⬇️ Lear more about this topic: Coronal Cilia in Rotifiers - Lansing and Larry (https://rupress.org/jcb/article-abstract/9/4/799/19548/FINE-STRUCTURE-OF-THE-CILIA-OF-ROTIFERS) ----- Follow @science.sbmedia for daily content! 🫡 #Microbiology #Rotifers #CoronalCilia #Evolution #Biomimicry #Microfluidics #Science #BioEngineering #FluidDynamics #MicroscopicLife #STEM

✨ #Microfluidics Discovery Guide

Instagram hosts thousands of posts under #Microfluidics, creating one of the platform's most vibrant visual ecosystems. This massive collection represents trending moments, creative expressions, and global conversations happening right now.

Discover the latest #Microfluidics content without logging in. The most impressive reels under this tag, especially from @life_and_sunshine, @science.sbmedia and @rowancheung, are gaining massive attention. View them in HD quality and download to your device.

What's trending in #Microfluidics? The most watched Reels videos and viral content are featured above. Explore the gallery to discover creative storytelling, popular moments, and content that's capturing millions of views worldwide.

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💡 Top performing posts average 47.7K views (2.4x above average). Moderate competition - consistent posting builds momentum.

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