• Title/Summary/Keyword: NASICON

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Computation of Ionic Conductivity at NASICON Solid Electrolyte (III) Na1$\longrightarrow$mid-Na$\longrightarrow$Na2 Conduction Paths (NASICON 고체 전해질의 이온 전도도 계산 (III) 전도경로가 Na1$\longrightarrow$mid-Na$\longrightarrow$Na2인경우)

  • 최진삼;서양곤;강은태
    • Journal of the Korean Ceramic Society
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    • v.33 no.6
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    • pp.645-652
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    • 1996
  • The ionic conductivity of NASICON (Na Super Ionic Conductor) solid electrolyte was simulated by using Monte Carlo Method (MCM)based on a hopping model. We assumed that the conduction path of Na ions is Na1→mid-Na→Na2 where the mid-Na sites are shallow potential sites to induce 'a breathing-like movement' of Na ions in the NASICON framework. The minimum of charge correlation factor Fc and the maximum of appeared at nearby x=2.0 The occupancy of mid-Na site affected the depth of potential barrier and the conduc-tivity of the NASICON. At above x=0.3 ln σT vs. 1/T* plots have been shown Arrhenius behavior but in (VWfc)vs. 1/T* have been shown the Arrhenius type tendency at x=1 MCM results accorded with the experi-mental procedure. The role of mid-Na on Na+ ion conduction could be explained by an additional driving force and a breating-like movement model for motions of Na+ ions in the NASICON framework. As we couldn't clearly remarked the model which is the better it seems reasonable to conclude that these hypothesies are suitable to explain the FIC behavior at NASICON.

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SOx Sensor Using NASICON Solid Electrolyte (NASICON 고체 전해질을 사용한 SOx 가스 감지센서)

  • Choi, Soon-Don;Lee, Kwang-Beum
    • Journal of Sensor Science and Technology
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    • v.5 no.4
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    • pp.25-34
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    • 1996
  • A SOx sensor using NASICON electrolyte was developed for monitoring of air pollution. The following galvanic cell with $Na_{2}SiO_{3}(Pt)$ reference electrode was assembled : Pt | $Na_{2}SiO_{3}$ | NASICON | $Na_{2}SO_{4}$ | Pt, $SO_{2}$, air $Na_{2}SO_{4}$ was used as an indicator electrode to protect NASICON electrolytes from chemical reaction with $SO_{2}$. The EMFs were measured after injecting $SO_{2}$ in the initial concentrations range of $5{\sim}95ppm$ at $400{\sim}550^{\circ}C$. The measured and calculated potentials were in good agreement above $500^{\circ}C$. However, the cells were unstable below $500^{\circ}C$, most likely due to incomplete attainment of chemical equilibrium. Response time was within 10 min. Based on the stability and response time of this cell, the NASICON solid electrolyte with $Na_{2}SiO_{3}(Pt)$ as the reference electrode and $Na_{2}SO_{4}$ (Pt)as the indicator electrode showed the possibility of a reliable, inexpensive commercial solid-state SOx sensor.

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Computation of Ionic Conductivity in NASICON Solid Electrolytes (I) Conduction Paths with no Mid-Na Sites (NASICON 고체전해질의 이온전도도 계산 (I) Mid-Na의 영향을 고려하지 않은 경우)

  • 최진삼;서양곤;강은태
    • Journal of the Korean Ceramic Society
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    • v.32 no.8
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    • pp.957-965
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    • 1995
  • The ionic conductivityof NASICON solid electrolytes was simulated by using Monte Carlo Method (MCM) based on a hopping model as functions of temoperature and composition. Two conduction paths were used : jumping from Na1 to Na2 and jumping from Na1 to Na2 and jumping from Na2 to Na2. Vacancy availability factor, V was affected by composition, temperature and the conduction paths. For β"-Alumina, it was known that the minimum of charge correlation factor, fc appears at the composition, p=0.5, but there was not shown the minimum of fc for NASICON. When the NASICON composition, x, approaches 2.5, the curve of In σT vs. 1/T* was shown Arrhenius behavior and also In (VWfc) was a linear function of 1/T*. The results of simulations on the considered conduction paths didn't agree with the experimental results. Thus it will be necessary to include the another Na sites as mid-Na site on the conduction path to obtain the better results.

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Phase Distribution, Microstructure, and Electrical Characteristics of NASICON Compounds

  • N.H. Cho;Kang, Hee-Bok;Kim, Y.H.
    • The Korean Journal of Ceramics
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    • v.1 no.4
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    • pp.179-184
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    • 1995
  • Sodium superionic conductor (NASICON) compounds were prepared. The effects of sintering temperature and cooling rate on the formation and the distribution of crystalline NASICON and $ZrO_3$ second phase were investigated. In the von Alpen-type composition, the $ZrO_2$ second phase is in thermal equilibrium with the crystalline NASICON above $1320^{\circ}C$, but when cooled through 1260-$1320^{\circ}C$ crystalline NASICON was formed by reaction between $ZrO_2$ and liquid phase. Very slow cooling ($1^{\circ}C$/hr) to $1260^{\circ}C$ from sintering temperature decreased the amount of sodium which prevents the formation of the crystalline NASICON resulted high number of $ZrO_2$ grains near the surface of some sintered bodies. Maximum electrical conductivity of 0.200 ohm-1cm-1 was obtained at $300^{\circ}C$ for well-sintered samples with little $ZrO_3$. On the other hand, low conductivities were obtained for rapid-cooled samples which have less dense microstructure.

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FABRICATIO0N OF NASICON ELECTROLYTES

  • Choi, Soon-Don;Park, Jung-Woo
    • Journal of Sensor Science and Technology
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    • v.4 no.1
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    • pp.35-42
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    • 1995
  • Conventional ball-milling technique was used to synthesize NASICON powders. The NASICON powders were made from three kinds of component powders : coarse($ZrO_{2}$, $Na_{3}PO_{4}$, $SiO_{2}$), fine ($ZrO_{2}$, $Na_{3}PO_{4}$, $SiO_{2}$) and fine ($ZrSiO_{4}$, $Na_{3}PO_{4}$) powders. The fine component powders were easily reacted to form the desired product at $1100^{\circ}C$ or higher, whereas incomplete reaction due to the coarse component powders occurred even at $1170^{\circ}C$. The finer the grain size of the starting powders was, the higher the bulk density of NASICON electrolyte after sintering was observed. Almost single phase NASICON electrolytes with more than 95% of the theoretical density, $3.27g/cm^{3}$, could be fabricated by sintering for $40{\sim}60$ hours at temperatures between 1150 and $1170^{\circ}C$.

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Effects of Heat-treatment Condition on the Characteristics of Sintering and Electrical Behaviors of Two NASICON Compounds (열처리조건이 두 NASICON 조성의 소결 및 전기적특성에 미치는 영향)

  • 강희복;조남희;김윤호
    • Journal of the Korean Ceramic Society
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    • v.34 no.7
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    • pp.685-692
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    • 1997
  • Effects of sintering temperature and time on the phase formation, the characteristics of sintering and electrical behaviors of NASICON compounds with Na3Zr2Si2PO12 and Na3.2Zr1.3Si2.2P0.8O10.5 compositions synthesized by solid state reaction were investigated. Maximum relative densities of 96% and 91% were obtained for Na3Zr2Si2PO12 and Na3.2Zr1.3Si2.2P0.8O10.5 compounds, respectively. Complex impedance analysis in a frequency range below 4 MHz was performed to measure the ionic conductivity and migration barrier height of the compounds at RT-30$0^{\circ}C$. The maximum ionic conductivity and the minimum migration barrier height were 0.45 ohm-1cm-1 and 0.07 eV, respectively. The migration barrier height of the high temperature form (space group : R3c) is about 30-40% of that of the low temperature form (space group : C2/c) in two NASICON compounds. Ionic conductivity increases with increasing sinterability, and the presence of glass phase in Na3.2Zr1.3Si2.2P0.8O10.5 compounds lowers significantly ionic conductivity at temperatures above 14$0^{\circ}C$.

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$CO_2$ Sensing Characteristics of PLD NASICON Thin Films (PLD법에 의해 제작된 NASICON 박막의 $CO_2$ 감지특성)

  • Min, Nam-Ki;Jin, Joon-Hyung;Lee, Sang-Yeol;Hong, Suk-In
    • Proceedings of the KIEE Conference
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    • 1999.07d
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    • pp.1657-1659
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    • 1999
  • Our $CO_2$ sensor is based on an electrochemical reaction involving NASICON, Ba-Stabilized $Na_2CO_3$, two Pt electrodes, $O_2$, and $CO_2$.. NASICON thin films were deposited by pulsed laser deposition(PLD). The sensitive electrode made of Ba-stabilized sodium carbonate was magnetron sputtered. An emf between two Pt electrodes was proportional to the logarism of the concentration of $CO_2$ in the ambient. This sensor has a sensitivity of 3.82mV/decade and does not show any saturation for $CO_2$ concentration as high as 200,000 ppm.

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A Study on Characteristics to Fabrication Methode of Na Solid Electrolyte (Na고체전해질의 제조방법에 따른 CO2감응 특성연구)

  • Kwak, Jong-Sig;Choi, Soon-Don;Lee, Duk-Dong
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.20 no.9
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    • pp.761-765
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    • 2007
  • NASICON sensors compare properties with manufacture method in order to improve $CO_2$ sensitivity and stability the sensing behaviors. Oxidation mixing method and Sol-gel method were compare analyze to characteristic in which each other sintered to $900^{\circ}C\;to\;1100^{\circ}C$ and NASICON $CO_2$ gas sensors were fabricate. Oxidation mixing method showed better sensing properties at sintered $1100^{\circ}C$ result to NASICON electrolyte analyze with manufacture methods.

A study on improving sensitivity to CO2 gases of Na solid electrolyte sensors adding CaO (CaO를 첨가한 Na고체전해질 센서의 CO2가스 감도향상에 관한 연구)

  • Kwak, Jong-Sig;Seo, Moo-Gyo;Choi, Soon-Don;Lee, Duk-Dong
    • Journal of Sensor Science and Technology
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    • v.11 no.4
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    • pp.218-223
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    • 2002
  • NASICON sensors that the NASICON electrolytes with various CaO amounts were sintered at low temperature($900^{\circ}C$), were fabricated to improve $CO_2$ sensitivity and stability in sensing behaviors. The manufactured device was shown good sensing characteristics and stability of output electromotive force at $250^{\circ}C$, comparatively low operating temperature.

Fabrication and Sensing Properties of Pt-electrode/NASICON Solid Electrolyte/ Carbonate(Na2CO3-K2CO3-CaCO3system ) Electrode for CO2gas sensor (CO2용 Pt전극/NASICON고체전해질/Carbonate (Na2CO3-K2CO3-CaCO3 계) 전극의 가스 센서제작 및 특성)

  • Choi, Jin-Sam;Bae, Jae-Cheol;Bang, Yeong-Il;Lee, Deok-Dong;Huh, Jeung-Su
    • Korean Journal of Materials Research
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    • v.12 no.4
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    • pp.269-273
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    • 2002
  • The NASICON solid electrolyte films, $Na_{1+x}Zr_2Si_xP_{3-x}O_{12}$(1.5< x < 2.3), was prepared from ceramic slurry by modified doctor-blade process. The NASICON solid electrolyte and fabricated sensors, Pt-electrode/NASICON/Carbonate$(Na_2CO_3-K_2CO_3CaCO_3\; system)$ electrode, were investigated to measure phase, microstructure and e.m.f variation for sensing $CO_2$ concentration. The uniform grain size of $2-4{\mu}m$ and major phase of sodium zirconium silicon phosphate phase, $Na_{1+x}Zr_2Si_xP_{3-x}O_{12}$was identified with X-ray diffraction patterns and scanning electron microscopy, respectively. The Nernst's slope of 84 mV/decade for $CO_2$ concentration from 500 to 8000 ppm was obtained at operating temperature of $400^{\circ}C$.