• 한국결정성장학회지
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• 제9권2호
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• pp.245-250
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• 1999

본 연구에서는$(Li_{0.5}La_{0.5})_{1-y}Sr_yTi_{1-x}Mn_xO_3$와 같은 조성계를 택하여 고용범위 내에서 Sr과 Mn을 변화시켜가며 이온전도도를 고찰하였다. 결과 Sr 치환의 경우 y=0.05 이상에서는 전도도가 급격히 감소하였으며 이는 이온전도에 기여하는 리튬의 절대량이 감소하였기 때문인 것으로 판단된다. Mn의 경우 치환에 의한 격자상수의 변화 외에 Jahn-Teller distortion에 의하여 전도도가 영향을 받는다는 것을 알 수 있었다. A-site와 B-site의 이온이 독립적으로 이온전도에 기여한다는 것을 알 수 있었으며 x=0.0006, y=0.05에서 이온전도도는$2.8{\times}10^{-2}$ S/cm였다.

• The Korean Journal of Ceramics
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• 제4권2호
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• pp.95-98
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• 1998

We have developed new type of superconducting-superionic conducting nanohybrids, $Ag_xI_wBi_2Sr_2Ca_{n-1}Cu_nO_y$ (n=1 and 2) by applying the chimie douce reaction to the superconducting Bi-based cuprates. These nanohybrids can be achieved by the stepwise intercalation whereby the $Ag^+$ ion is thermally diffused into the pre-intercalated iodine sublattice of $IBi_2Sr_2Ca_{n-1}Cu_nO_y$. According to the X-ray diffraction analysis, the Ag-I intercalates are found to have an unique heterostructure in which the superionic conducting Ag-I layer and the superconducting $IBi_2Sr_2Ca_{n-1}Cu_nO_y$ layer are regularly interstratified with a remarkable basal increment of ~7.3$\AA$. The systematic XAS studies demonstrate that the intercalation of Ag-I accompanies the charge transfer between host and guest, giving rise to a change in hole concentration of $CuO_2$ layer and to a slight $T_c$ change. The Ag K-edge EXAFS result reveals that the intercalated Ag-I has a $\beta$-AgI-like local structure with distorted tetrahedral symmetry, suggesting a mobile environment for the intercalated $Ag^+$ ion. In fact, from ac impedance analyses, we have found that the Ag-I intercalates possess a fast ionic conductivity ($\sigma_i=10^{-1.4}\sim 10^{-2.6}\Omega^{-1}\textrm{cm}^{-1}\;at\;270^{\circ}C$ with an uniform activation energy ($\DeltaE_a=0.22\pm 0.02$ eV). More interesting finding is that these intercalates exhibit high electronic conducting as well as ionic ones ($t_i$=0.02~0.60) due to their interstratified structure consisting of superionic conducting and superconducting layers. In this respect, these new intercalates are expected to be useful as an electrode material in various electrochemical devices.