Battery Scientist - Electrolyte
Entrada Ventures · San Leandro, CA · Today
Analyst$100k–$150k/yrFull-time
Core Responsibilities
- Lead electrolyte formulation development for silicon-dominant anode cells, including solvent systems, salt selection, and additive screening to optimize SEI/CEI stability, ionic conductivity, and long-term cycle life.
- Design and execute data-driven cell parameter optimization using design-of-experiments to efficiently navigate large formulation spaces.
- Design and validate accelerated aging and stress-testing methods to rapidly assess electrolyte formulation candidates.
- Perform electrochemical characterization (EIS, CV, dQ/dV) and chemical analysis (NMR, GCMS, XPS, FTIR, Raman, SEM/TEM) to elucidate electrolyte-electrode interfacial behavior, correlating accelerated aging results with post-mortem findings to identify dominant degradation mechanisms.
- Conduct auxiliary characterization (calorimetry, in-situ gas analysis, symmetric cells, three-electrode measurements) alongside standard methods to build a detailed mechanistic understanding of electrolyte-electrode interactions and degradation pathways.
- Conduct root-cause failure analysis, combining experimental post-mortem techniques with computational modeling of degradation mechanisms to develop predictive understanding of electrolyte-limited failure modes.
- Collaborate within the Cell Development team and cross-functionally with R&D, product, commercial, and manufacturing teams to ensure electrolyte formulations meet customer performance requirements and are scalable for production.
Required Experience
- Demonstrated excellence in electrolyte R&D for lithium-ion batteries, with deep knowledge of SEI/CEI formation mechanisms, electrode-electrolyte interfacial chemistry, and degradation pathways.
- Strong background in electrochemistry and mechanistic organic chemistry, particularly as it relates to reductive decomposition, radical intermediates, and polymerization reactions at electrode surfaces.
- Hands-on experience with electrolyte formulation: solvent blending, lithium salt optimization, additive selection, and functional evaluation in multiple cell form factors.
- Familiarity with silicon-dominant anode systems and unique interfacial and volumetric challenges of Si anodes and electrolyte strategies to address them.
- Knowledge of chemical laboratory and manufacturing environment safety practices.
- Ability to excel in highly dynamic, early-stage environments; navigating ambiguity, making progress despite incomplete data, and balancing priorities to meet both immediate and longer-term goals.
- A high degree of professionalism, excellent communication, and presentation skills are essential.
- Ability to excel in highly dynamic, early-stage environments; bridging experimental and computational teams.