Electrochemical intercalation of lithium species into disordered carbon prepared by the heat-treatment of poly (p-phenylene) at 650 degrees C for anode in lithium-ion battery
Jb. Gong et Hq. Wu, Electrochemical intercalation of lithium species into disordered carbon prepared by the heat-treatment of poly (p-phenylene) at 650 degrees C for anode in lithium-ion battery, ELECTR ACT, 45(11), 2000, pp. 1753-1762
Electrochemical intercalation of lithium into disordered carbon heat-treate
d from poly (p-phenylene) (PPP) at 650 degrees C is investigated. Constant
current charge-discharge test, coulometric titration, a.c. impedance and X-
ray photoelectron spectrometry (XPS) are performed to provide thermodynamic
and kinetic data on the lithium insertion reaction versus x in Li-x(H0.224
C)(6) as well as the electronic state of inserted lithium. Our results show
that the lithium storage mechanism involves two processes, one is lithium
intercalation into the layer structure for 0 < x < 1; the other is lithium
being doped onto the surface of micropores for x > 1, or more accurately, o
nto the surface near the edge sites of microcrystallites, and that the inse
rted lithium has an ionic state. The above mechanism is basically the same
as that proposed for high hydrogen-containing carbons before. The compositi
on dependence of the pre-exponential factor and the activation energy for t
he self-diffusion of lithium ions suggests that there are significant chang
es in the mobility of mobile lithium ions and in their concentration. (C) 2
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