In Situ Investigation of the Dynamic Evolution of Materials and Interfaces in Energy Storage Systems
In energy storage devices, materials evolve from their initial state due to electrochemical reactions and interfacial instabilities at interfaces. To develop batteries with improved safety, energy density, and lifetime, it is critical to understand transformation mechanisms and degradation processes within these devices. In my research group, multiscale in situ techniques are used to reveal reaction mechanisms and interfacial transformations to guide the development of better batteries and other devices. Our recent work has used in situ transmission electron microscopy (TEM) to reveal phase transformation pathways and mechanical degradation/fracture when sulfide nanocrystals react with different alkali ions (lithium, sodium, and potassium). Surprisingly, mechanical fracture was found to occur only during reaction with lithium, despite larger volume changes during reaction with sodium and potassium. Since fracture is a known capacity decay mechanism in batteries, this result indicates that these materials are useful for the development of novel, high-energy sodium and potassium batteries. In a different study, operando synchrotron X-ray diffraction methods were used to precisely measure crystallographic strain evolution in battery electrode materials; this technique enables measurements beyond what is possible with TEM. In the final portion of the presentation, in situ X-ray photoelectron spectroscopy (XPS) experiments that reveal chemical evolution of solid-state interfaces in energy storage and electronic materials will be presented. Overall, this research demonstrates how fundamental understanding of dynamic processes can be used to guide the design and engineering of new materials and devices with high energy density and long lifetime.
Prof. Matthew T. McDowell
The McDowell Laboratory
Georgia Institute of Technology
MRDC Building
801 Ferst Drive
Atlanta, GA 30332-0405
USA
G. W. Woodruff School of Mechanical Engineering
School of Materials Science and Engineering
| Prof. McDowell | |
| Http | Georgia Institute of Technology |
| School of Materials Science and Engineering | |
| Woodruff School of Mechanical Engineering | |
| The McDowell Laboratory |