Dolomite Introduces new Range of Droplet Generation Systems
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Dolomite has introduced the Micro Droplet Systems which can enable advances in droplet microfluidics and allow users to produce more than 10,000 monodispersed droplets per second.
Built around Dolomite’s microfluidic pumps, connectors and chips, the Micro Droplet Systems benefit a wide range of applications including compartmentalized 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 product range can enable 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.”
Built around Dolomite’s microfluidic pumps, connectors and chips, the Micro Droplet Systems benefit a wide range of applications including compartmentalized 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 product range can enable 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.”