We are Sila, a next-generation battery materials company.
Key Responsibilities
Investigate the roles of active materials, binder, and conductive additives on the performance of Li-ion batteries
Discover, understand and explain the fundamentals involved in the relationships between electrode components and cell performance
Lead the design, development, qualification, and scale up of novel electrode and participate and develop skills of cell prototyping and testing capabilities
Apply advanced data analysis, statistical methods, and modeling techniques to interpret test results, predict performance, and inform design iterations
Effectively communicate ideas, plans, and results to internal stakeholders, and occasionally to external partners
Work with a larger cross-company team of diverse backgrounds to discover and communicate knowledge for the long term development of our next generation battery materials
Accelerate learning cycles by developing new techniques or test methods to detect downstream challenges early in the development
Identify safety hazards and work cooperatively to implement improvements
Invest in our values and champion them as we grow
Requirements
You’re an engineer excited to perform R&D structure-property relationships at the electrode level and scale R&D electrodes into prototype and production lines. You enjoy using design thinking to put creative solutions into practice and are driven to quickly test out and iterate concepts. You know how to be a thoughtful, supportive team member, and are ready to both give and receive feedback with humility. As part of a collaborative effort, your work will help to elucidate the underlying structure-property relationships of anode component materials and their impact on electrochemical performance, and scale the electrodes for commercially-built lithium-ion batteries.
Strong technical background, experience with lithium-ion batteries including different process steps (slurry, coating, cell design and cell tear down) is required; direct experience in slurry & coating formulation / process and their characterizations is a strong plus
Well-organized and data-driven approach to problem solving and experimental design, driven by curiosity and attention to detail
Proficiency in using databases, and data analysis tools such as JMP, Python, etc.
Exceptional communication abilities with both internal groups and external customers; Japanese or Korean language fluency is a plus
Ability to carefully plan and implement multiple projects simultaneously
Understanding of lab safety best practices
At least a B.S. in engineering or science and 4+ years of experience in batteries or related field (fewer for candidates with an advanced degree)