Materials Scientist — Organic Crystal Growth & Process Engineering at Meta
Pasadena, California, United States -
Full Time


Start Date

Immediate

Expiry Date

11 Sep, 26

Salary

217000.0

Posted On

13 Jun, 26

Experience

2 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

No

Skills

Organic Crystal Growth, Process Engineering, Material Characterization, Multiphysics Simulation, SEM, AFM, XRD, DSC, Inert-Atmosphere Techniques, CAD Tools, Rapid Prototyping, Molecular Characterization, Organic Optoelectronics, Melt Growth, Zone Refining, Bridgman Growth

Industry

Software Development

Description
Out team at Meta is seeking a highly skilled and experienced Materials Scientist to join our team in developing advanced materials for our wearables’ technology. You will play a critical role in designing, modeling, and prototyping novel concepts, working closely with cross-functional teams to create innovative solutions. This is an exciting opportunity to work on cutting-edge technology and contribute to the development of next-generation wearables. Responsibilities Develop and optimize processes for creating advanced materials for wearables displays Design, model, and prototype novel concepts for wearables displays Collaborate with cross-functional teams, including scientists, engineers, and researchers Characterize and analyze materials using various techniques, such as SEM, AFM, XRD, and DSC Develop and apply multiphysics simulations to inform process design and scale-up Document experimental methods, results, and process knowledge Minimum Qualifications PhD degree in Chemical Engineering, Materials Science, Materials Chemistry, Physical Chemistry, Organic Physics, Polymer Physics or relevant technical field, and/or equivalent practical experience 3+ years of relevant industry or postdoctoral experience and/or equivalent practical experience Demonstrated experience with material development, characterization, and analysis Familiarity with phase diagram determination, thermal analysis, and solid-state characterization techniques Hands-on laboratory experience with inert-atmosphere techniques and purification methods Preferred Qualifications Experience with at least one multiphysics simulation platform (e.g., COMSOL Multiphysics, Ansys Fluent/Mechanical, Siemens FLOEFD/StarCCM+, or equivalent) Experience working in a R&D environment with cross-functional collaboration Demonstrated experience publication record in organic solid-state materials, crystal engineering, or related disciplines Strong publication record in organic solid-state materials, crystal engineering, or related disciplines Experience with CAD tools (e.g., NX, SolidWorks, or equivalent) and rapid prototyping (CNC machining, 3D printing, material selection for fixtures/tooling) Proficiency with molecular characterization techniques such as NMR, GC/MS, and/or LC/MS for purity analysis and structural confirmation Knowledge of defect analysis in molecular crystals (e.g., dislocations, grain boundaries, polymorphism) Experience with organic optoelectronic device fabrication or characterization (OLEDs, OPVs, OFETs) Demonstrated experience with melt growth, zone refining, Bridgman growth, or related crystallization techniques for organic or molecular solids Experience designing or scaling up crystal growth furnaces or custom thermal processing equipment, hardware assembling and/or engineering controls Proficiency with solid-state characterization techniques including at least two of the following: SEM, AFM, XRD, DSC, TGA, or polarized optical microscopy Hands-on laboratory experience with inert-atmosphere techniques (glove box operation) and purification methods (sublimation, recrystallization) Direct experience growing single crystals of organic semiconductors or π-conjugated molecular materials (e.g., acenes, thiophenes, perylenes) Familiarity with phase diagram determination and thermal analysis of organic systems $154,000/year to $217,000/year + bonus + equity + benefits
Responsibilities
Develop and optimize processes for advanced materials used in wearables displays through design, modeling, and prototyping. Collaborate with cross-functional teams to characterize materials and apply multiphysics simulations for process scale-up.
Loading...