Microfluidics Group Ready To Speed Device Development

Leti announces that new ISO standards on microfluidics will be developed under Leti’s initiative and guidelines. Microfluidics involves fluid-handling devices with internal dimensions in the range of micrometers up to a few millimeters. Often referred to as lab-on-a-chip, these portable systems integrate various laboratory functions on a single integrated processor. They are expected to boost point-of-care diagnosis in fields such as health care, and immediate, onsite environmental analysis and monitoring.

 

Following the MFManufacturing project, a European initiative to bring the manufacturing of microfluidic devices to the same level of maturity and industrialization as electronic devices, Leti emerged as a leader in the launch of an international microfluidics association and the definition of new ISO standards. Nicolas Verplanck, Microfluidic project manager at Leti, has been appointed convener of the European CEN/TC-332/WG7 and international ISO/TC48/WG3 (micro-process engineering) working groups and will write the microfluidics standards to speed commercialization of the emerging technology.

Free Newsletter

Like this article? Subscribe to FierceSensors!

The sensors industry is constantly changing as innovation runs the market’s trends. FierceSensors subscribers rely on our suite of newsletters as their must-read source for the latest news, developments and analysis impacting their world. Register today to get sensors news and updates delivered right to your inbox.

 

 The anticipated standardization of international microfluidics design and manufacturing will focus on increasing maturity of both functional and fabrication process aspects:

  • Increasing maturity of microfluidic functions focusing both on novel functional modules and their interoperability
  • Increasing maturity of the manufacturing process: focusing on novel hybrid integration processes and on increasing maturity of some selected manufacturing processes that have good short-term commercial potential.

 

These steps are designed to improve device availability, reliability and accessibility, and result in lower production costs and improved time to market for microfluidic devices. In addition, these conditions are expected to enable large-scale adoption of these devices in target markets.

 

In addition to Verplanck, the microfluidics association’s steering committee includes:

  • Holger Becker, microfluidic Chipshop, Germany
  • Marko Blom, Micronit, Netherlands
  • Henne van Heeren, enablingMNT, Netherlands
  • Lionel Matthys, Fluigent, France
  • Darwin Reyes, National Institute of Standards and Technology (NIST), USA
  • Alexios Tzannis, IMT, Switzerland
  • Yu Zhou, Siemens Healthineers, U.S.

 

For more info, visit Leti.

Read more on

Suggested Articles

Standards for airplane ventilation are actually tougher

Coronavirus to cause $70 million reduction in revenues for 2Q

The system works on Shaped Magnetic Field In Resonance technology