This report explores the opportunity and defines the research agenda for mesoscale science—discovering, understanding, and controlling interactions among disparate systems and phenomena to reach the full potential of materials complexity and functionality. The ability to predict and control mesoscale phenomena and architectures is essential if atomic and molecular knowledge is to blossom into a next generation of technology opportunities, societal benefits, and scientific advances.. The body of this report outlines the need, the opportunities, the challenges, and the benefits of mastering mesoscale science.
Luca Pion-Tonachini, Kristofer E. Bouchard, Héctor García Martín, Sean Peisert, W. Holtz, Anil Aswani, Dipankar Dwivedi, Haruko Wainwright, Ghanshyam Pilania, Benjamin Nachman, Babetta L. Marrone, Nicola Falco, Daniel Arnold, Alejandro Wolf‐Yadlin, Sarah Powers, Sharlee Climer, Quinn Jackson, Ty Carlson, Michael D. Sohn, Petrus H. Zwart, Neeraj Kumar, Amy C. Justice, Claire J. Tomlin, Daniel Jacobson, Gos Micklem, Georgios V. Gkoutos, Peter J. Bickel, Jean‐Baptiste Cazier, Juliane Müller, Bobbie‐Jo Webb‐Robertson, Rick Stevens, Mark Anderson, Ken Kreutz-Delgado, Michael W. Mahoney, James B. Brown
Michaela Roberts, Kathryn Colley, Margaret Currie, Antonia Eastwood, Kuang-Heng Li, Lisa M. Avery, Lindsay Beevers, Isobel Braithwaite, Martin Dallimer, Zoe G. Davies, Helen L. Fisher, Christopher Gidlow, Anjum Memon, Ian Mudway, Larissa A. Naylor, Stefan Reis, Pete Smith, Stephen Stansfeld, Stephanie Wilkie, Katherine N. Irvine
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