TY - JOUR
AU - V Sivakumar
AU - Caroline A Ross
AU - N Yabuuchi
AU - Yang Shao-Horn
AU - Kristin A Persson
AU - Gerbrand Ceder
AB - <p>The magnetic moment of the half-metallic ferromagnetic oxide CrO2 has been modified via electrochemical lithiation. In the low-Li regime, below about x = 0.2 in LixCrO2, a large change in magnetization of 20 
 2% per 0.1 Li/formula unit is obtained, in reasonable agreement with a model based on the change in oxidation state of the Cr ions. The change in magnetization is partly reversible, especially for x 0.1. The kinetics and reversibility of the process are improved at 60°C, and Li contents up to x = 0.9 could be inserted. At these concentrations the room-temperature moment is reduced to 5% of its initial value. This decrease is irreversible, due to disruption of the rutile crystal structure of the CrO2.</p>
BT - Journal of The Electrochemical Society
DA - 08/2008
LA - eng
M1 - 8
N2 - <p>The magnetic moment of the half-metallic ferromagnetic oxide CrO2 has been modified via electrochemical lithiation. In the low-Li regime, below about x = 0.2 in LixCrO2, a large change in magnetization of 20 
 2% per 0.1 Li/formula unit is obtained, in reasonable agreement with a model based on the change in oxidation state of the Cr ions. The change in magnetization is partly reversible, especially for x 0.1. The kinetics and reversibility of the process are improved at 60°C, and Li contents up to x = 0.9 could be inserted. At these concentrations the room-temperature moment is reduced to 5% of its initial value. This decrease is irreversible, due to disruption of the rutile crystal structure of the CrO2.</p>
PY - 2008
SP - P83
EP - P88
T2 - Journal of The Electrochemical Society
TI - Electrochemical Control of the Magnetic Moment of CrO<sub>2</sub>
VL - 155
ER -