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Surface channel technology (SCT) was invented at the MESA+ institute almost 10 years ago and has opened the way for many new microfluidic devices. Most notably, it was the technology that allowed fabrication of a micro Coriolis mass flow sensor, which is the most sensitive Coriolis mass flow sensor to date and which is currently being commercialized by Bronkhorst High-Tech BV. The technology has some unique features:
Still, after 10 years of gradual improvements, the SCT technology has some important limitations in the dimensions of the resulting channels: at the lower end the wall thickness is currently limited to at least 1.3 μm (due to lithography limitations), and at the other end of the scale the maximum channel diameter is limited to about 80 μm (due to etching and deposition limitations). Furthermore, larger diameters tend to deform under pressure because the cross section is not circular. We are now in the unique position, as the inventors of the original technology and with other groups just picking up on this technology, to open up routes for further miniaturization as well as allowing larger channel diameters. Extending the design freedom will undoubtedly result in many new developments. So far, we succeeded in making tube diameters ranging up to 80 microns, so, we need to develop a different technology to realise flow tubes with diameters ranging from 80 – 1000 microns, with a perfect circular diameter to withstand high pressures and pressure variations. Objective 1: Extend the range of channel diameters to both smaller (< 5μm) and larger (> 80μm, up to 1000 micron) diameters, while keeping the advantages of circular shape and a relatively thin, chemically inert channel wall. To reach this objective a further improvement of the current SCT technology is not possible, due to the above mentioned limitations in lithography, etching and deposition. Instead, fundamental research is needed towards other ways to realize such channels in a silicon wafer. Also material aspects need to be investigated: currently the channel wall consists of silicon nitride, but larger channel diameters will require a thicker wall and other materials or material combinations are needed (e.g. a solution might be a stack of three layers: silicon nitride – poly silicon – silicon nitride). You will work together with another PhD student who is responsible for application of the technology in 2 demonstrator devices.
The University of Twente. We stand for life sciences and technology. High tech and human touch. Education and research that matter. New technology which leads change, innovation and progress in society. The University of Twente is the only campus university of the Netherlands; divided over five faculties we provide more than fifty educational programmes. We have a strong focus on personal development and talented researchers are given scope for carrying out groundbreaking research.
We are an equal opportunity employer and value diversity at our company. We do not discriminate on the basis of race, religion, color, national origin, gender, sexual orientation, age, marital status or disability status. Because of our diversity values we do particularly support women to apply.
The faculty of Electrical Engineering, Mathematics and Computer Science (EEMCS) comprises three disciplines that shape Information and Communication Technology. ICT is more than communication. In almost every product we use mathematics, electronics and computer technology and ICT now contributes to all of societies' activities. The faculty works together intensively with industrial partners and researchers in the Netherlands and abroad and conducts extensive research for external commissioning parties and funders. The research which enjoys a high profile both at home and internationally, has been accommodated in the multidisciplinary research institutes MESA+, CTIT and MIRA.
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