RT NIHL3D: Rapid prototyping and parametric optimization of plastic acoustofluidic devices for blood-bacteria sepa… https://t.co/9JCOvmfpOt
RT cidar_lab: Check out ryanjaysilva and DraperLab’s paper on rapid prototyping #microfluidic devices using otherm… https://t.co/9WywAYKP7i
RT @NIHL3D: Rapid prototyping and parametric optimization of plastic acoustofluidic devices for blood-bacteria separation. https://t.co/xID…
RT @NIHL3D: Rapid prototyping and parametric optimization of plastic acoustofluidic devices for blood-bacteria separation. https://t.co/xID…
RT @cidar_lab: Check out @ryanjaysilva and @DraperLab’s paper on rapid prototyping #microfluidic devices using @othermachine mills! https:/…
RT @cidar_lab: Check out @ryanjaysilva and @DraperLab’s paper on rapid prototyping #microfluidic devices using @othermachine mills! https:/…
RT cidar_lab: Check out ryanjaysilva and DraperLab’s paper on rapid prototyping #microfluidic devices using otherm… https://t.co/dlJ2iH6bar
Check out @ryanjaysilva and @DraperLab’s paper on rapid prototyping #microfluidic devices using @othermachine mills! https://t.co/DybbxIW1mQ
Rapid prototyping and parametric optimization of plastic acoustofluidic devices for blood-bacteria separation. https://t.co/xIDmn6pRIE