posted on 2017-05-31, 00:00authored byDaehee Lee, Mihye Wu, Dong-Hyun Kim, Changju Chae, Min Kyung Cho, Ji-Young Kim, Sun Sook Lee, Sungho Choi, Youngmin Choi, Tae Joo Shin, Kyung Yoon Chung, Sunho Jeong, Jooho Moon
The
initial reversible capacity, a critical impediment in transition
metal oxide-based anodes, is augmented in conversion-reaction-involved
CoO anodes for lithium-ion batteries, by incorporating a chemically
synthesized Ag nanophase. With an increase in the added amount of
Ag nanophase from 5 to 15 wt %, the initial capacity loss decreases
linearly up to 31.7%. The Ag nanophase maintains its pristine metallic
nature without undergoing phase transformations, even during repeated
vigorous electrochemical reactions of the active CoO phase. Complementary
ex situ chemical/physical analyses suggest that the Ag nanophase promotes
the catalytic generation of reversible gel-like/polymeric films wherein
lithium ions are stored capacitively in the low-voltage region below
0.7 V during discharging. These scientific findings would provide
a heretofore unrecognized pathway to resolving a major issue associated
with the critical irreversibility in conversion-type transition metal
oxide anodes.