KIEE International Transactions on Electrophysics and Applications

The Korean Institute of Electrical Engineers (대한전기학회)
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A Study on the Electrochemical Properties of Carbon Nanotube Anodes Using a Gradual Increasing State of Charge Method

  • Doh, Chil-Hoon (Battery Research Group, The Korea Electrotechnology Research Institute) ;
  • Park, Cheol-Wan (Battery Research Group, The Korea Electrotechnology Research Institute) ;
  • Jin, Bong-Soo (Battery Research Group, The Korea Electrotechnology Research Institute) ;
  • Moon, Seong-In (Battery Research Group, The Korea Electrotechnology Research Institute) ;
  • Yun, Mun-Soo (Battery Research Group, The Korea Electrotechnology Research Institute)
  • Published : 2004.02.01
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Abstract

From the gradual increasing state of charge (GISOC) observations, electrochemical behavior of multi-walled carbon nanotube│(lM LiP $F_{6}$ , EC,DEC,DME 3:5:5 volume ratio)│lithium cells was evaluated using the galvanostatic charge-discharge process. A MWCNT delivers a specific charge capacity of 1,300 mAh/g in a Li cell when cycled up to an end voltage of 0 V (vs. Li/L $i^{+}$ )at a constant current rate every 10 hours. However, in the present study, the specific discharge capacity obtained is 338 mAh/g, thus amounting to a coulombic efficiency of only 26%. Further, when the MWCNT│Li cells were tested using the GISOC method, two distinguishable linear-fit ranges were observed due to the intercalation/deintercalation of lithium, which were found to have II $E_1$, IIC $s_1$ and II $E_2$of 27.3%, 372 mAh/g, and 25.5%, respectively. Q $c_1$, could be calculated from the data of IIE and IICs of each range by the modified equation "II $C_{sum}$= $\Sigma$( $Q_{C}$- $Q_{D}$)=(II $E_{1}$$^{-1}$ ) $Q_{Dl}$ +(II $E_2$$^{-1}$ -1) ( $Q_{D2}$- $Q_{Dl}$ ) + IIC $s_1$= $Q_{Cl}$ - $Q_{Dl}$ ". Results of the GISOC method could be converted to the results of galvanostatic charge-discharge process, irrespective of the state of charge of the cell or battery.ery.y.y.

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References

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