Metafluidics is an open repository for fluidic systems.
Share your fluidic devices with the global community today, and stay tuned for more daily updates!
Hey, Metafluidics fans! Today we want to highlight the Open Source Plate Reader uploaded and created by Brian Chow from Chow Labs! Be sure to check out more info here: https://t.co/QmkHBdjzwL, and try to create an account and upload your own devices!
#biology#microfluidics
What's going on Metafluidics fans? Today we are highlighting the Mammalian cell transfection and culturing device by Sebastian Maerkl! This device is extremely interesting and creative, so be sure to check out more at https://t.co/r85a3EhBBr
#biology#microfluidics#cellculture
What's up Metafluidics enthusiasts! Today we are highlighting the Mother Machine to Study Feast-and-Famine dynamics uploaded by smoreno. Make sure to check out more at: https://t.co/SHemOBFjrw.
#biology#microfluidics
Hey, Metafluidics fans! Today we are highlighting the WAVEchip from @creoptix! WAVEchip is a "microfluidic cartridge to support crude samples, pathogenic samples, harsh solvents, and large particles up to 1000 nm." We would love to see the WAVEchip on metafluidics soon!
Hey, microfluidics fans! Make sure to check out the Tape-Based Barrier-on-Chip uploaded by Thomas Winkler of @KTHuniversity! This low-cost device is very similar to the organ-on-a-chip! Find out more about how to build here: https://t.co/fLM27klWQ1!
#microfluidics#biology
What's up microfluidics fans! If you have ever wondered how to generate cell-mimics that contain artificial DNA, make sure to check out the Double Emulsion Chip by Henrike Niederholtmeyer! Find out more here:https://t.co/ZsQQtzvjNR!
#microfluidics#biology#cellbiology
Today we are going to highlight the Beacon Optofluidic System from @berkeley_lights! This device allows for cell analysis at ultra-rapid speeds! We would love to see this device uploaded onto the Metafluidics website linked here: https://t.co/AQsKX5R8Lb.
#Microfluidics#Biology
Hey microfluidics fans, long time no see! We wanted to kickstart our return to Twitter with a shoutout to the "Sorting Device for Living Organisms Based on Electric Fields" created by @GaudiLabs. Make sure to check it out and find out more at: https://t.co/dNwsd6URiy.
Want to make sure your 3D printer is precise enough for Microfluidics? This XY resolution test has 10 to 200 µm sized slots and steps to characterize a printer’s XY resolution! You can check it out here: https://t.co/zPsDNpbSbH
.
.
.
#3dprinting#3dmodeling#microfluidics
This device will take your *breath* away (get it cuz it's an oxygenator?)
Check out the Microfluidic Oxygenator by Todd Thorsen! It provides controllable oxygen levels to microchambers. Metafluidics Link: https://t.co/9DEBQNKDsW
#Microfluidics#oxygen#microbiology#cell#diybio
Who is *pumped* for some Metafluidics highlights? Today we present 3D Printed Syringe Pump for Pneumatic Control by rjsilva. This is a wonderful open-source tool for programmable continuous-flow microfluidics! Link: https://t.co/fCRn2Nlezo
#Microfluidics#3Dprinting#OpenSource
We love open-source biology-focused hardware! This Open Source Plate Reader by Brian Chow features full-spectrum absorbance and fluorescence emission detection, and stand-alone touch screen programming of automated assay protocols!
Check it out: https://t.co/QmkHBdjzwL
#biotech
Are you a fan of diagnostic tools, especially ones using ultralow volume samples? Cuz we sure are! Take a peek at Digital-Analog Nano-Immunoassay Device, from @MaerklLab, hosted on Metafluidics! Link: https://t.co/pq7fGdOarQ
#microfluidics#metafluidics#diagnostics#PDMS
Arduino+Microfluidics=♥️
Check out the 32-Channel Controller by Todd Thorsen on Metafluidics! This device can control 32 programmable channels with a push of a button. Link: https://t.co/Iolxeu50xq
#microfluidics#Arduino#Genetics#Metafluidics#diybio
Happy Friday! Today we want to showcase one of our most popular uploads, miniDrops which is a 3D printed, low-cost, small-footprint microfluidic controller most suitable for droplet microfluidics. Check it out: https://t.co/kyTUh4AbYU
#microfluidics#3dprinting#biology#bio
Need a syringe pump to regulate flow and pressure inside your Microfluidics chip? Check out this Low Cost Syringe Pump by John Lake! It uses feedback control and an open-source micro-controller board (Arduino). Learn more here: https://t.co/7odHZP2vEa
#microfluidics#3Dprinting
When doing science, consistency is key! That's why we're proud to highlight today's device: 3D Printer Fluidic Features Resolution Test by Adam Joules. Test out your printer today :) Files on Metafluidics: https://t.co/rGCDiJmCwd #3Dprinting#microfluidics#utility#diybio
Have you been wanting to dip your toes into Organ-on-a-Chip Microfluidics? Check out this replication of the highly cited lung-on-a-chip device from Wyss Institute! This design can be downloaded and viewed on Metafluidics: https://t.co/dMQ00arZLq
#microfluidics#communitybio