Mechatronics Development Engineer - Pathogen
At the Ellison Institute of Technology (EIT), we're on a mission to translate scientific discovery into real world impact. We bring together visionary scientists, technologists, engineers, researchers, educators and innovators to tackle humanity's greatest challenges in four transformative areas: Health, Medical Science & Generative Biology; Food Security & Sustainable Agriculture; Climate Change & Managing CO₂; Artificial Intelligence & Robotics.
This is ambitious work - work that demands curiosity, courage, and a relentless drive to make a difference. At EIT, you'll join a community built on excellence, innovation, tenacity, trust, and collaboration, where bold ideas become real-world breakthroughs. Together, we push boundaries, embrace complexity, and create solutions to scale ideas from lab to society. Explore more at www.eit.org.
Welcome to the Pathogen Project:
Within this ecosystem, the Pathogen Mission exemplifies EIT's commitment to transformative science. It aims to revolutionise the diagnosis and treatment of infectious diseases by leveraging whole genome sequencing (WGS)-based metagenomic and pathogen-specific analytical tools. This remit includes the development of a decentralised, sample-to-answer sequencing diagnostic platform for infectious diseases, enabling rapid and accurate analysis of patient samples without prior assumptions. Supported by Oracle Inc.'s cloud-computing scale and security infrastructure, the Pathogen Mission is progressing towards certified diagnostic products for deployment in laboratories, hospitals, and public health organisations worldwide.
Your Role:
At EIT we are seeking an experienced and detail orientated Mechatronics Development Engineer to help develop next-generation diagnostic technology. In this role, you'll work alongside experts in microfluidics, microbiology, electronics and firmware to design, build and iterate prototype instrumentation for a point-of-care device capable of metagenomic sequencing through a microfluidic cartridge interface.
You will take a hands-on role in developing and refining experimental rigs used to test cartridge-based modules, integrating actuators, sensors and thermal systems to manipulate fluids at the microscale. This is an exciting opportunity to contribute to innovative healthcare technology with real-world impact.
This role offers scope to shape the mechanical architecture of a novel diagnostic platform and to grow within a multi-disciplinary environment.
Key Responsibilities:
- Design, build, modify and iterate prototype rigs in the laboratory to test and validate cartridge-based modules.
- Design and implement mechanical integration of actuators, sensors, heaters and fluidic interfaces into experimental platforms.
- Develop and refine docking mechanisms between cartridge and instrument.
- Select and integrate off-the-shelf components (motors, syringe pumps, load cells, pressure sensors, heaters, drivers).
- Assemble, wire and commission prototype systems in the lab, including rapid reconfiguration as designs evolve.
- Work closely with electronics and firmware engineers to integrate hardware and control systems.
- Identify mechanical, thermal and integration failure modes through hands-on troubleshooting and testing.
- Conduct structured experimental testing of rigs and document performance improvements.
- Contribute to improving repeatability, robustness and ease-of-use of prototype systems.
- Support design reviews with practical insights from lab testing.
- Maintain clear documentation of rig configurations, changes and experimental results.
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