PRODUCT

MST-X SERIES

Advanced Production of Nanoparticles Using Microfluidic Technology

Microvortex mixing patterns engineered to formulate nanoparticles

These scalable single chip units support a range of throughputs from discovery
to preclinical studies with > 95% mixing efficiency for uniform synthesis.

MPA: Dean vortex-induced mixing
MPA X1MPA X1NanoCalibur™ Lab
관련 사진
  • Organic phase inlet
  • Aqueous phase inlet
  • Outlet
SMR: Swirling vortex-induced mixing
SMR T1SMR T1NanoCalibur™ Lab
관련 사진
  • Organic phase inlet
  • Aqueous phase inlet
  • Outlet

Microfluidic synthesis chip parallelization for scalable production

Microfluidic parallelization preserves the microfluidic pattern of a given unit of microfluidic synthesis chip and
thus minimizes the optimization time required in order to scale up to mass production.

In a PMS-cMPA chip, NanoCalibur™ utilizes a network of MPA X1 channels to distribute the precursor solutions and
ensure that shear stress remains within critical levels that preserve payload (e.g. mRNA) integrity.

PMS: Parallelized Microfluidic Synthesis
PMS-cMPA X16PMS-cMPA X16NanoCalibur™ GMP
관련 사진
  • Organic phase inlet
  • Aqueous phase inlet
  • Outlet
PMS-cSMR T16PMS-cSMR T16NanoCalibur™ GMP
관련 사진
  • Organic phase inlet
  • Aqueous phase inlet
  • Outlet

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