Diagnose and resolve mechanical, electrical, and control system issues during development.
Perform functional experiments on the proprietary device for characterization and validation.
Coordinate with external subcontractors and suppliers to support prototype fabrication and assembly.
Utilize CAD software (SolidWorks or Onshape) to modify and optimize designs for manufacturability.
Write and utilize Python scripts for automation, data collection, and system control.
Integrate 3D printing and other prototyping techniques into the development process.
Qualifications & Skills
? Bachelor's degree in Mechanical Engineering with 2+ years of hands-on experience in prototype assembly, troubleshooting, and testing.
? Experience with Python for automation and system integration.
? Proficiency in CAD software (SolidWorks or Onshape) for prototype modification.
? Familiarity with 3D printing, rapid prototyping, and manufacturing techniques.
? Experience working with external subcontractors and suppliers for fabrication and assembly.
? Strong problem-solving skills and the ability to work in a fast-paced startup environment.
Preferred Qualifications
? Experience working with liquid-handling robots.
? Experience in a MedTech or BioTech startup environment.
Why Join Us?
Be part of an innovative team developing next-generation medical devices.
Gain hands-on experience working on development of complex electromechanical biomedical device.
Work in a collaborative startup environment with a focus on problem-solving and iteration.
Employee benefits package and opportunities for career growth in the biomedical field.
About SiPhox
SiPhox, supported by Y Combinator, Intel, and Khosla Ventures, is revolutionizing diagnostics through silicon photonics. Our in-vitro diagnostic (IVD) devices, powered by disposable silicon photonic chip sensors, deliver the capabilities of large laboratory instruments in a compact form. Our mission is to provide accurate, reliable, and accessible diagnostic tools that empower healthcare professionals and improve patient outcomes.