posted on 2019-11-14, 16:42authored byJae-Hyun Shim, Hyosik Kang, Young-Min Kim, Sanghun Lee
Electron beam damage from transmission electron microscopy
of layered
lithium transition-metal oxides is a threshold phenomenon that depends
on the electron beam energy, which we demonstrate in this study by
varying the accelerating voltage of a scanning transmission electron
microscope. The electron beam irradiation experiment shows that Ni
in LiNiO2 has much lower threshold energy for displacement
than Co in LiCoO2, which is supported by DFT calculations
predicting that Ni has lower migration energy. The transition-metal
ions are reduced from the oxidation state of +3 to +2 during migration
from their original positions to the lithium sites, and Ni is more
easily reduced than Co because of its electronic configuration. In
addition, the high-energy electron beam induces oxygen release, which
is another symptom of degradation of materials that occurs more strongly
in Ni-containing materials with ion displacement.