Staff / Principal Automated Systems Engineer

Lila Sciences Lila Sciences · AI Frontier · One Charles Park, Cambridge, MA · Autonomous Science Platform

This role focuses on designing, developing, and implementing automation solutions for laboratory workflows, integrating hardware, controls, and software. It involves translating scientific objectives into technical requirements, exploring emerging technologies like machine vision and advanced sensors, and ensuring alignment with safety and regulatory standards. The role requires hands-on experience with automation, Python, CAD, hardware systems, and an understanding of AI-driven decision-making in research automation.

What you'd actually do

  1. Actively contribute to hands-on development, testing, and implementation of automated workflows in the lab.
  2. Develop scalable automated solutions for synthesis and characterization workflows, supporting a variety of material systems such as porous materials, catalysts, coatings, and advanced composites.
  3. Define and document standardized laboratory workflows, operating procedures, and system architectures to support reproducibility and scale.
  4. Lead and participate in equipment- and system-level FMEAs to improve robustness and operational safety.
  5. Assist in the troubleshooting and optimization of automated systems for throughput, reliability, and adaptability across diverse workflows.

Skills

Required

  • Bachelor’s or advanced degree in Materials Science, Chemistry, Engineering, or a related field.
  • Strong hands-on experience developing and scaling automated workflows in laboratory or industrial settings.
  • Understanding of Python programming, including API integration and error handling.
  • Understanding of CAD design and rapid prototyping, including 3D printing.
  • Hands-on experience with hardware systems, including electrical wiring, sensors, liquid/gas plumbing, and PID controllers.
  • Strong critical thinking skills, attention to detail, and ability to work collaboratively in a dynamic environment.
  • Excellent communication and interpersonal skills, with the ability to convey technical concepts clearly to diverse audiences.
  • Familiarity with advanced experimental systems, including vacuum, laser, furnace, and electrochemical experimentation.
  • Knowledge of machine vision applications and robotics control algorithms.
  • Proven ability to integrate hardware and controls systems with automation workflows.
  • Understanding of AI-driven decision-making in research automation.
  • Prior experience leading technical teams in a fast-paced R&D environment.

Nice to have

  • AI experimental design and simulation
  • Automated custom instrumentation
  • Generative molecular and material design

What the JD emphasized

  • Understanding of AI-driven decision-making in research automation
  • Prior experience leading technical teams in a fast-paced R&D environment