Open AccessAtomic structure of sensitive battery materials and interfaces revealed by cryo–electron microscopy
Author(s) -
Yuzhang Li,
Yanbin Li,
Allen Pei,
Kai Yan,
Yongming Sun,
Chun-Lan Wu,
Lydia-Marié Joubert,
Richard Chin,
Ai Leen Koh,
Yi Yu,
John Perrino,
Benjamin Butz,
Steven Chu,
Yi Cui
Publication year - 2017
Publication title -
science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 12.556
H-Index - 1186
eISSN - 1095-9203
pISSN - 0036-8075
DOI - 10.1126/science.aam6014
Subject(s) - electron microscope , cryo electron microscopy , battery (electricity) , materials science , electron , microscopy , nanotechnology , crystallography , chemistry , physics , optics , nuclear magnetic resonance , nuclear physics , quantum mechanics , power (physics)
Whereas standard transmission electron microscopy studies are unable to preserve the native state of chemically reactive and beam-sensitive battery materials after operation, such materials remain pristine at cryogenic conditions. It is then possible to atomically resolve individual lithium metal atoms and their interface with the solid electrolyte interphase (SEI). We observe that dendrites in carbonate-based electrolytes grow along the <111> (preferred), <110>, or <211> directions as faceted, single-crystalline nanowires. These growth directions can change at kinks with no observable crystallographic defect. Furthermore, we reveal distinct SEI nanostructures formed in different electrolytes.
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