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922013

Sigma-Aldrich

Droplet generator chip - Four elements per chip design

Fluidic 537, PC

Synonym(s):

Microfluidic chip, Microparticle synthesis, Nanoparticle

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About This Item

UNSPSC Code:
42142600
NACRES:
NA.23

description

Microfludic chip x1

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Application

Microfluidic generation of droplets can produce highly monodispersed droplets with high frequency (up to hundreds of kHz). Interest in droplet-based microfluidic systems has grown substantially, because microfluidics offers the ability to handle very small volumes (μl to fl) of fluids, provides better mixing, encapsulation, sorting, and sensing. Microfluidics can be used for high throughput experimentation. Microfluidic-based droplets have many diverse and varied applications such as particle synthesis and chemical analysis. Highly controlled droplet production also makes single cell analysis, or drug testing possible.

Droplet generator chip - Four elements per chip design, Fluidic 537, PC is made of PC (polycarbonate). The droplet generator with design number 537 possesses a classic flow focusing geometry, perfectly suited to generate simple droplets. With four identical droplet generator units on one microfluidic chip, this device is ideal for anyone who wants to try or compare multiple experimental setups, without the need of ordering a new chip for every experiment. This chip is one of the few droplet generators devices with Luer interfaces and appropriate Luer compatible accessories are required.

Certificates of Analysis (COA)

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Recent advances of controlled drug delivery using microfluidic platform.
Li X, et al.
Advanced Drug Delivery Reviews, 128, 3-28 (2018)
Microfluidic-assisted fabrication of carriers for controlled drug delivery.
Santos H A, et al.
Lab on a chip, 17, 1856-1883 (2017)
Recent advances of controlled drug delivery usingmicrofluidic platforms.
Li X, et al.
Advanced Drug Delivery Reviews, 128, 3-28 (2018)

Articles

Microfluidic assembly improves polyamine nanoencapsulation of nucleic acids, overcoming challenges like polydispersity and poor reproducibility.

Microfluidic assembly improves polyamine nanoencapsulation of nucleic acids, overcoming challenges like polydispersity and poor reproducibility.

Microfluidic assembly improves polyamine nanoencapsulation of nucleic acids, overcoming challenges like polydispersity and poor reproducibility.

Microfluidic assembly improves polyamine nanoencapsulation of nucleic acids, overcoming challenges like polydispersity and poor reproducibility.

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