Investigation of metal oxide anode degradation in lithium-ion batteries via identical-location TEM

Mustain E William, University of South Carolina - Columbia

© Journal of Materials Chemistry A , 2014, Royal Society of Chemistry

William E, Mustain (2014). Investigation of metal oxide anode degradation in lithium-ion batteries via identical-location TEM. Journal of Materials Chemistry A, 2(6), 1627-1630.

https://dx.doi.org/10.1039/C3TA14377E

Abstract

Metal oxides are one of the most promising classes of materials to replace graphite anodes in future high energy density, high power density applications for lithium-ion batteries (LIBs), including (hybrid) electric vehicles and grid-scale energy storage. Unlike graphite, which undergoes lithium ion intercalation, nearly all metal oxides (MOs) experience structural decomposition and phase separation during charge–discharge. In this work, ordered mesoporous nickel oxide (OMNiO) was synthesized and used as a representative MO to study the nanoscale structural changes that occur during charge–discharge via identical-location transmission electron microscopy (IL-TEM). We connect IL-TEM with coin cell electrochemical studies to explain the root cause for the rapid capacity fade that is common to MOs generally, and NiO specifically. We show that the electronic conductivity, in addition to MO structure, plays a crucial role in maintaining high capacity over repeated charge–discharge cycling.