- About Us
- Nano-Social Network
- Nano Consulting
- My Account
|Microscopic images of nanoparticles|
Microfluidics expert Dolomite has extended its range of System Solutions to include an innovative Syringe-based Nanoparticle System allowing users to generate polymeric, metal and semi-conductor nanoparticles from 1nm to 100nm in diameter which benefit a wide range of applications including biochemistry, drug delivery, biomolecular sensing and fibre-optics.
Built around Dolomite's industry leading microfluidic pumps, connectors and chips, this easy-to-use system enables rapid and effective mixing of up to 2 reagents of 25Ál to 10ml. Using extra smooth pumps to deliver the reagents into the mixing region, the Syringe-based Nanoparticle System ensures precipitates of uniformly sized particles occur consistently throughout the sample offering significant advantages over traditional techniques.
Operating over a wide flow range from 0.1Ál/min to 10ml/min, the system features a Sample Injection Valve reducing reagent consumption. An additional thermal control module ensures that constant temperatures are maintained throughout the experiment ideal for targeted heating in biomedical applications.
Dolomite's range of System Solutions also includes Micro Droplet Systems that allow users to produce more than 10,000 highly monodispersed micro droplets per second ranging from 5Ám up to 250Ám in diameter.
For more information, please click here
Copyright © The Dolomite Centre LimitedIf you have a comment, please Contact us.
Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.
|Related News Press|
News and information
Explaining how 2-D materials break at the atomic level January 20th, 2017
Researchers produced nitrogen doped bimodal cellular structure activated carbon December 29th, 2016
Safe and inexpensive hydrogen production as a future energy source: Osaka University researchers develop efficient 'green' hydrogen production system that operates at room temperature in air December 21st, 2016
Zeroing in on the true nature of fluids within nanocapillaries: While exploring the behavior of fluids at the nanoscale, a group of researchers at the French National Center for Scientific Research discovered a peculiar state of fluid mixtures contained in microscopic channels January 11th, 2017
New active filaments mimic biology to transport nano-cargo: A new design for a fully biocompatible motility engine transports colloidal particles faster than diffusion with active filaments January 11th, 2017