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Probing Functionality for Energy Related Materials; Opportunities for Advanced Electron Microscopy

Published online by Cambridge University Press:  01 August 2018

Peter A. Crozier*
Affiliation:
School for the Engineering of Matter, Transport and Energy, Arizona State University, Tempe Arizona85287-6106

Abstract

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Type
Abstract
Copyright
© Microscopy Society of America 2018 

References

[1] US Department of Energy Report Basic Research Needs for Innovation and Discovery ofTransformative Experimental Tools 2017.Google Scholar
[2] Venkatraman, K, et al, Microscopy 2018 110.Google Scholar
[3] Liu, Q., et al, Ultramicroscopy 178 2017) p. 211.Google Scholar
[4] Crozier, P. A. P.A., Ultramicroscopy 180 2017) p. 104114.Google Scholar
[5] Bowman, W. J., et al, Nanoscale 9 2017) p. 1729317302.Google Scholar
[6] Crozier, P. A., et al, Ultramicroscopy 169 2016) p. 3036.Google Scholar
[7] Bowman, W. J., et al, Ultramicroscopy 167 2016) p. 510.Google Scholar
[8] Krivanek, O. L., et al, Nature 514 2014) p. 209212.Google Scholar
[9] Liu, Q., et al (submitted) 2018.Google Scholar
[10] Bowman, W. J., et al (submitted) 2018.Google Scholar
[11] Lawrence, E. L. Crozier, P. A. (submitted) 2018.Google Scholar
[12] Tao, F. Crozier, P. A. Chemical Reviews 116(6 2016) p. 34873539.Google Scholar
[13] Chenna, S. Crozier, P. A. ACS Catalysis 2 2012) p. 23952402.Google Scholar
[14] Miller, B. K. Crozier, P. A. (in preparation), 2018.Google Scholar
[15] We gratefully acknowledge support from NSF DMR-1308085, NSF CBET-1604971, NSF CHE-1508667 and DOE (DE-SC0004954).Google Scholar