Unveiling the Hidden Evolution of Crystal Defects and Disorder in Energy Materials

Steven Spurgeon

Arman Ter-Petrosyan

Mike Holden

Jenna Pope

Sarah Akers

Christina Doty

Kayla Yano

Rajendra Paudel

Le Wang

Eric Lang

Grace Guinan

Michelle Smeaton

Hilary Egan

Andrew Glaws

Brian Wyatt

Bethany Matthews

Khalid Hattar

Ryan Comes

Yingge Du

Babak Anasori

Steven Spurgeon^1,2,Arman Ter-Petrosyan³,Mike Holden⁴,Jenna Pope⁴,Sarah Akers⁴,Christina Doty⁴,Kayla Yano⁴,Rajendra Paudel⁵,Le Wang⁴,Eric Lang⁶,Grace Guinan¹,Michelle Smeaton¹,Hilary Egan¹,Andrew Glaws¹,Brian Wyatt⁷,Bethany Matthews⁴,Khalid Hattar⁸,Ryan Comes⁵,Yingge Du⁴,Babak Anasori⁷

National Renewable Energy Laboratory¹,University of Colorado Boulder²,University of California, Irvine³,Pacific Northwest National Laboratory⁴,University of Delaware⁵,The University of New Mexico⁶,Purdue University⁷,The University of Tennessee, Knoxville⁸

Steven Spurgeon^1,2,Arman Ter-Petrosyan³,Mike Holden⁴,Jenna Pope⁴,Sarah Akers⁴,Christina Doty⁴,Kayla Yano⁴,Rajendra Paudel⁵,Le Wang⁴,Eric Lang⁶,Grace Guinan¹,Michelle Smeaton¹,Hilary Egan¹,Andrew Glaws¹,Brian Wyatt⁷,Bethany Matthews⁴,Khalid Hattar⁸,Ryan Comes⁵,Yingge Du⁴,Babak Anasori⁷

National Renewable Energy Laboratory¹,University of Colorado Boulder²,University of California, Irvine³,Pacific Northwest National Laboratory⁴,University of Delaware⁵,The University of New Mexico⁶,Purdue University⁷,The University of Tennessee, Knoxville⁸

Control of point defects and disorder in functional thin films and 2D materials is critical to realizing their full potential in applications ranging from energy storage to advanced electronics. However, these phenomena are often poorly understood, difficult to characterize, and challenging to direct with precision. This presentation explores emerging multi-modal computer vision to decipher and predict order in materials across multiple length scales in the electron microscope, from the atomic to the nanoscale. By fusing data from diverse sources, these powerful models provide unprecedented insights into materials' lifecycles, enabling the control of defects and their associated properties at a fundamental level. This capability promises to transform materials design and accelerate the development of next-generation technologies.

Symposium Organizers

S. B. Majumder, University of Washington

Xin Qi, Dartmouth College

Menglin Chen, Aarhus University

Chenyang Shi, Pacific Northwest National Laboratory

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Bronze
Center for the Science of Synthesis Across Scales

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2025 MRS Spring Meeting & Exhibit

Unveiling the Hidden Evolution of Crystal Defects and Disorder in Energy Materials

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