Microfluidics Engineer - Medical Diagnostics in Oxford

Microfluidics Engineer - Medical Diagnostics in Oxford

Oxford Full-Time 35000 - 45000 Β£ / year (est.) No working from home possible
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At a Glance

  • Tasks: Design and optimise innovative microfluidic devices for rapid bacterial identification.
  • Company: Join CT19, a pioneering company in healthcare technology based in Oxford.
  • Benefits: Competitive salary, hands-on experience, and collaboration with a multidisciplinary team.
  • Other info: Exciting opportunity to work in a dynamic environment focused on healthcare advancements.
  • Why this job: Make a real impact in healthcare by driving innovation in microfluidics.
  • Qualifications: Degree in engineering or related field with strong fluid mechanics knowledge.

The predicted salary is between 35000 - 45000 Β£ per year.

CT19 is looking for a talented engineer to join their microfluidics team in Oxford. You will contribute to the design and optimisation of ground-breaking microfluidic devices for rapid bacterial identification. The ideal candidate holds a degree in engineering or a related quantitative field and possesses strong fundamentals in fluid mechanics.

Your role will involve hands-on prototyping and collaboration with a multidisciplinary team to drive innovation in microfluidics. Join us to make a significant impact in healthcare technology.

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Microfluidics Engineer - Medical Diagnostics in Oxford employer: CT19

CT19 is an exceptional employer that fosters a collaborative and innovative work culture in the heart of Oxford. With a strong focus on employee growth, we offer opportunities for professional development and hands-on experience in cutting-edge medical diagnostics. Join us to be part of a team that is dedicated to making a meaningful impact in healthcare technology while enjoying the vibrant atmosphere of one of the UK's most prestigious cities.

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Contact Details:

CT19 Recruitment Team

We think you need these skills to ace Microfluidics Engineer - Medical Diagnostics in Oxford

Microfluidics
Fluid Mechanics
Prototyping
Collaboration
Innovation
Engineering Degree
Quantitative Analysis