Thomas Hermans
@hermanslab.bsky.social
Research Professor @imdeananociencia.bsky.social. Young Scientist World Economic Forum. Co-founder and CSO of Qfluidics (www.qfluidics.com) & CelliXio (www.cellixio.com)
https://scholar.google.com/citations?user=pcNFT5oAAAAJ&hl=en&oi=ao
https://scholar.google.com/citations?user=pcNFT5oAAAAJ&hl=en&oi=ao
Surprisingly, this turns out to have many amazing advantages: 1) you don't need to worry about pressure drop (which is negligible), and therefore it can be easily scaled to large chip areas, 2) the mass transport is very fast (< 2 s) and efficient (5–85 better than traditional flow cells)
July 15, 2025 at 7:49 AM
Surprisingly, this turns out to have many amazing advantages: 1) you don't need to worry about pressure drop (which is negligible), and therefore it can be easily scaled to large chip areas, 2) the mass transport is very fast (< 2 s) and efficient (5–85 better than traditional flow cells)