Mesoscopic Modeling - Postdoctoral Researcher

Lawrence Livermore National Laboratory
Livermore, CA 94550

We have multiple positions for Postdoctoral Researchers to conduct research in the area of mesoscopic modeling of reactive interface kinetics and associated microstructure evolution of materials, focusing on 1) microstructure-aware energy storage mechanisms; 2) microstructure-aware degradation mechanisms; and/or 3) processing-microstructure relationship. You will actively participate in the research and development of mesoscale computational models and codes for investigating mechanisms and simulating kinetic processes in materials, including solid-state battery materials, solid-state hydrogen storage materials, and/or structural metals. These positions are in the Computational Materials Science group of the Materials Science Division.

In this role you will

  • Conduct fundamental and applied research in the kinetics of reactive interface phenomena and associated microstructure evolution of materials.
  • Develop integrated modeling and simulation capabilities for simulating concurrent (electro)chemical and materials kinetic processes in materials.
  • Design and perform systematic computer simulations on LLNL supercomputers for establishing the foundational understanding of operating kinetic mechanisms in these materials.
  • Pursue independent but complementary research interests and interact with a broad spectrum of scientists internally and externally to the Laboratory.
  • Collaborate with scientists in multidisciplinary team environment, including experimental and multiscale modeling experts.
  • Document research; publish papers in peer-reviewed journals, and present results within the DOE community and at conferences.
  • Perform other duties as assigned.


  • PhD in Materials Science, Chemical Engineering, Mechanical Engineering, Physics, Applied Mathematics, or related field.
  • Knowledge in materials phase transitions and/or (electro)chemical kinetic mechanisms.
  • Experience in mesoscale modeling and simulation techniques (e.g., (micro)kinetic modeling, etc.) and a background in surface/interfacial processes and phase transitions in materials.
  • Experience with the phase-field method or comparable continuum modeling techniques.
  • Experience with numerical methods for solving partial differential equations such as finite difference, finite element, and/or spectral methods.
  • Experience writing computer codes and/or advanced numerical solvers.
  • Ability to develop independent research projects demonstrated through publication of peer-reviewed journal articles.
  • Proficient verbal and written communication skills as reflected in effective presentations at seminars, meetings and/or teaching lectures.
  • Initiative and interpersonal skills with desire and ability to work in a collaborative, multidisciplinary team environment.

Qualifications We Desire

  • Experience with FORTRAN, C/C++, and parallel computing.
  • Experience in theoretical/computational studies of material microstructure evolution involving microelasticity effects and/or interfacial chemical reactions.
  • Experience with developing quantitative, parameterized phase-field models for solid-state phase transformation of real materials systems.

Why Lawrence Livermore National Laboratory?

  • Included in 2021 Best Places to Work by Glassdoor!
  • Work for a premier innovative national Laboratory
  • Comprehensive Benefits Package
  • Flexible schedules (*depending on project needs)
  • Collaborative, creative, inclusive, and fun team environment

Learn more about our company, selection process, position types and security clearances by visiting our Career site.

Pre-Employment Drug Test

External applicant(s) selected for this position will be required to pass a post-offer, pre-employment drug test. This includes testing for use of marijuana as Federal Law applies to us as a Federal Contractor.

Pre-Placement Medical Exam

A job related pre-placement medical examination may be required.

Equal Employment Opportunity

LLNL is an affirmative action and equal opportunity employer that values and hires a diverse workforce. All qualified applicants will receive consideration for employment without regard to race, color, religion, marital status, national origin, ancestry, sex, sexual orientation, gender identity, disability, medical condition, pregnancy, protected veteran status, age, citizenship, or any other characteristic protected by applicable laws.

If you need assistance and/or a reasonable accommodation during the application or the recruiting process, please submit a request via our online form.

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Join us and make YOUR mark on the World!

Are you interested in joining some of the brightest talent in the world to strengthen the United States' security? Come join Lawrence Livermore National Laboratory (LLNL) where our employees apply their expertise to create solutions for BIG ideas that make our world a better place.

We are committed to a diverse and equitable workforce with an inclusive culture that values and celebrates the diversity of our people, talents, ideas, experiences, and perspectives. This is essential to innovation and creativity for continued success of the Laboratory's mission.

"},"jobDescription":{"title":"Job Description","text":"

We have multiple positions for Postdoctoral Researchers to conduct research in the area of mesoscopic modeling of reactive interface kinetics and associated microstructure evolution of materials, focusing on 1) microstructure-aware energy storage mechanisms; 2) microstructure-aware degradation mechanisms; and/or 3) processing-microstructure relationship. You will actively participate in the research and development of mesoscale computational models and codes for investigating mechanisms and simulating kinetic processes in materials, including solid-state battery materials, solid-state hydrogen storage materials, and/or structural metals. These positions are in the Computational Materials Science group of the Materials Science Division.

In this role you will

  • Conduct fundamental and applied research in the kinetics of reactive interface phenomena and associated microstructure evolution of materials.
  • Develop integrated modeling and simulation capabilities for simulating concurrent (electro)chemical and materials kinetic processes in materials.
  • Design and perform systematic computer simulations on LLNL supercomputers for establishing the foundational understanding of operating kinetic mechanisms in these materials.
  • Pursue independent but complementary research interests and interact with a broad spectrum of scientists internally and externally to the Laboratory.
  • Collaborate with scientists in multidisciplinary team environment, including experimental and multiscale modeling experts.
  • Document research; publish papers in peer-reviewed journals, and present results within the DOE community and at conferences.
  • Perform other duties as assigned.

"},"qualifications":{"title":"Qualifications","text":"
  • PhD in Materials Science, Chemical Engineering, Mechanical Engineering, Physics, Applied Mathematics, or related field.
  • Knowledge in materials phase transitions and/or (electro)chemical kinetic mechanisms.
  • Experience in mesoscale modeling and simulation techniques (e.g., (micro)kinetic modeling, etc.) and a background in surface/interfacial processes and phase transitions in materials.
  • Experience with the phase-field method or comparable continuum modeling techniques.
  • Experience with numerical methods for solving partial differential equations such as finite difference, finite element, and/or spectral methods.
  • Experience writing computer codes and/or advanced numerical solvers.
  • Ability to develop independent research projects demonstrated through publication of peer-reviewed journal articles.
  • Proficient verbal and written communication skills as reflected in effective presentations at seminars, meetings and/or teaching lectures.
  • Initiative and interpersonal skills with desire and ability to work in a collaborative, multidisciplinary team environment.

Qualifications We Desire

  • Experience with FORTRAN, C/C++, and parallel computing.
  • Experience in theoretical/computational studies of material microstructure evolution involving microelasticity effects and/or interfacial chemical reactions.
  • Experience with developing quantitative, parameterized phase-field models for solid-state phase transformation of real materials systems.

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Mesoscopic Modeling - Postdoctoral Researcher

Lawrence Livermore National Laboratory
Livermore, CA 94550

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