George Crabtree

JCESR Director

George Crabtree, an Argonne National Laboratory Senior Scientist and Distinguished Fellow, is the Director of the Joint Center for Energy Storage Research. As JCESR Director, Crabtree directs the overall strategy and goals of the research program and operational plan, acts as liaison to executives of JCESR partner organizations, and represents JCESR with external constituencies and advisory committees.

He has won numerous awards for his research, including the Kammerlingh Onnes Prize for his work on the physics of vortices in high-temperature superconductors. This prestigious prize is awarded once every three years; Crabtree is its second recipient. He has won the U.S. Department of Energy (DOE) Award for Outstanding Scientific Accomplishment in Solid State Physics four times, a notable accomplishment. He won an R&D 100 Award for his pioneering development of magnetic flux imaging systems.

Crabtree is a Fellow of the American Physical Society, a Charter Member of ISI’s Highly Cited Researchers in Physics, a Member of the U.S. National Academy of Sciences and a Fellow of the American Academy of Arts and Sciences.

Crabtree has published more than 440 papers in leading scientific journals, collected more than 18,000 career citations, and has given more than 150 invited talks at national and international scientific conferences. His research interests include energy storage, materials science, nanoscale superconductors and magnets, superconductivity, and highly correlated electrons in metals.

He has led DOE workshops on next-generation energy storage, hydrogen, solar energy, superconductivity, and materials under extreme environments, and co-chaired the Undersecretary of Energy’s assessment of DOE’s applied energy programs. He has testified before the U.S. Congress on the hydrogen economy, meeting sustainable energy challenges and energy innovation Hubs. Crabtree earned his Ph.D. in Condensed Matter Physics from the University of Illinois at Chicago.

Latest Updates

See All
  • Technology

    JCESR’s focus has changed to building transformational materials from the bottom up, atom-by-atom and molecule-by-molecule, where each atom or molecule plays a prescribed role in producing the desired overall materials performance. We could not have done this 10 years ago when the advanced scientific tools … Read More

  • Team Approach

    JCESR is a collaborative team of engineers and scientists with very broad backgrounds. In the battery space we are now facing challenges that required a multidisciplinary approach that no single group can achieve. Made up of 18 partner institutions, JCESR’s diversity and the opportunity for … Read More

  • Renewed Focus

    JCESR has had a very successful first five years. The personal relationships we’ve formed now enable us to move forward with even more momentum. Recently, the team of more than 150 came together for its first full program meeting since renewal. As stated by the … Read More

  • Simulation and Measurement of Water-induced Liquid-liquid Phase Separation of Imidazolium Ionic Liquid Mixtures

    Computationally predicted liquid-liquid phase equilibrium confirmed by experimental measurements. Read More

  • Unified Platform for Ion Transport in Inorganic Glasses, Polymers and Composite Solid Electrolytes

    In this review paper, ion transport parameters in seemingly different solid electrolytes – glasses, polymers, and composites - were presented on a unified platform. Read More