Nanotechnology Now

Our NanoNews Digest Sponsors

Heifer International

Wikipedia Affiliate Button

Home > Press > Dolomite Introduces New Range of Droplet Generation Systems

Micro Droplet System
Micro Droplet System

Abstract:
Micro Droplet Systems enable fast and advanced droplet microfluidics

Dolomite Introduces New Range of Droplet Generation Systems

Royston, UK | Posted on July 7th, 2010

Dolomite, a world leader in microfluidic design and manufacture, has introduced the Micro Droplet Systems which enable rapid advances in droplet microfluidics and allow users to produce more than 10,000 monodispersed droplets per second. Built around Dolomite's industry leading microfluidic pumps, connectors and chips, the Micro Droplet Systems benefit a wide range of applications including compartmentalised chemistry, high throughput experimentation and the formation of monodispersed emulsions or beads.

Comprising of: the Pressure-based Droplet Starter System; the Syringe-based Droplet Starter System; and the Droplet Advanced System, this novel product range enables researcher to get up and running immediately. Andrew Lovatt, CEO, Dolomite commented, ‘Micro-droplets is a fascinating and rapidly growing area of industrial research. We are delighted to be launching these innovative systems, providing our clients with the best tools, allowing them to focus on creating the best science. Our extensive microfluidic design and fabrication experience also enables us to assist researchers by working with them to create tailored solutions optimized for their application'.

For bespoke applications, Dolomite designs and manufactures custom chips, tailored to meet the requirements of any laboratory. For further information on Dolomite's custom capabilities and the entire range of Micro Droplet Systems, as well as Dolomite's complete range of microfluidic products, including chips, connectors/interconnects, pumps, valves and flow sensors, please visit www.dolomite-microfluidics.com.

####

About Dolomite
Established in 2005 as the world’s first Microfluidic Application Centre, Dolomite focused on working with customers to turn their concepts for microfluidic applications into reality. Today, Dolomite is the world leader in solving microfluidic problems. With offices in the UK and US and distributors throughout the rest of the world, its clients range from universities developing leading-edge analytical equipment, to manufacturers of chemical, life science and clinical diagnostics systems.

Dolomite is pioneering the use of microfluidic devices for small-scale fluid control and analysis, enabling manufacturers to develop more compact, cost-effective and powerful instruments. By combining specialist glass, quartz and ceramic technologies with knowledge of high performance microfluidics, Dolomite is able to provide solutions for a broad range of application areas including environmental monitoring, clinical diagnostics, food and beverage, nuclear, agriculture, petrochemical, cosmetics, pharmaceuticals and chemicals. Furthermore Dolomite's in-house micro-fabrication facilities that include clean rooms and precision glass processing facilities allow to prototype and test all solutions rapidly which ensures a faster development cycle and reduces the time to market.

For more information, please click here

Contacts:
Andrew Lovatt +44 1763 242491


Media enquiries
Alto Marketing Limited
Carolyn Butchers
+44 (0)1489 557672

Copyright © Dolomite

If 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.

Bookmark:
Delicious Digg Newsvine Google Yahoo Reddit Magnoliacom Furl Facebook

Related News Press

News and information

Histology in 3-D: New staining method enables Nano-CT imaging of tissue samples February 22nd, 2018

Developing reliable quantum computers February 22nd, 2018

Imaging individual flexible DNA 'building blocks' in 3-D: Berkeley Lab researchers generate first images of 129 DNA structures February 22nd, 2018

'Memtransistor' brings world closer to brain-like computing: Combined memristor and transistor can process information and store memory with one device February 22nd, 2018

Chemistry

Ultra-efficient removal of carbon monoxide using gold nanoparticles on a molecular support: New method and mechanism for state-of-the-art gas purification February 9th, 2018

Fast-spinning spheres show nanoscale systems' secrets: Rice University lab demonstrates energetic properties of colloids in spinning magnetic field February 7th, 2018

New filters could enable manufacturers to perform highly-selective chemical separation January 23rd, 2018

Nanowrinkles could save billions in shipping and aquaculture Surfaces inspired by carnivorous plants delay degradation by marine fouling January 17th, 2018

'Gyroscope' molecules form crystal that's both solid and full of motion: New type of molecular machine designed by UCLA researchers could have wide-ranging applications in technology and science January 16th, 2018

Microfluidics/Nanofluidics

Leti to Demo New Curving Technology at Photonics West that Improves Performance of Optical Components January 18th, 2018

Nanotubes go with the flow to penetrate brain tissue: Rice University scientists, engineers develop microfluidic devices, microelectrodes for gentle implantation December 19th, 2017

Announcements

Histology in 3-D: New staining method enables Nano-CT imaging of tissue samples February 22nd, 2018

Developing reliable quantum computers February 22nd, 2018

Imaging individual flexible DNA 'building blocks' in 3-D: Berkeley Lab researchers generate first images of 129 DNA structures February 22nd, 2018

'Memtransistor' brings world closer to brain-like computing: Combined memristor and transistor can process information and store memory with one device February 22nd, 2018

Tools

Histology in 3-D: New staining method enables Nano-CT imaging of tissue samples February 22nd, 2018

Imaging individual flexible DNA 'building blocks' in 3-D: Berkeley Lab researchers generate first images of 129 DNA structures February 22nd, 2018

MEMS chips get metatlenses: Combining metasurface lenses with MEMS technology could add high-speed scanning and enhance focusing capability of optical systems February 21st, 2018

Oxford Instruments announces Dr Kate Ross as winner of the 2018 Lee Osheroff Richardson Science Prize for North and South America February 20th, 2018

NanoNews-Digest
The latest news from around the world, FREE



  Premium Products
NanoNews-Custom
Only the news you want to read!
 Learn More
NanoStrategies
Full-service, expert consulting
 Learn More











ASP
Nanotechnology Now Featured Books




NNN

The Hunger Project