Microfluidics Sorting Chip
The E-beam irradiated sorting chip acts as an integrated flow cell/nozzle and can be easily installed and removed.
The sample and sheath fluid are injected into the chip’s micro-fluidic channels from inlet ports. Excitation lasers interrogate the sample within the chip, and then the sample it passes through, and is sorted as droplets. The chip is directly connected to the waste line and can be declogged using software commands.
Unlike traditional systems that require nozzles to be removed for manual cleaning, the FX500 system uses an automated purge and prime cycle triggered by the software to clear the chip. A chip can be used continuously without removing it. The chip is available in 70-μm and 100-μm allowing researchers to easily adapt the system to various cell sizes.
Microfluidics Sorting Chip
The E-beam irradiated sorting chip acts as an integrated flow cell/nozzle and can be easily installed and removed.
The sample and sheath fluid are injected into the chip’s micro-fluidic channels from inlet ports. Excitation lasers interrogate the sample within the chip, and then the sample it passes through, and is sorted as droplets. The chip is directly connected to the waste line and can be declogged using software commands.
Unlike traditional systems that require nozzles to be removed for manual cleaning, the FX500 system uses an automated purge and prime cycle triggered by the software to clear the chip. A chip can be used continuously without removing it. The chip is available in 70-μm and 100-μm allowing researchers to easily adapt the system to various cell sizes.