Bibliographical Review on Inorganic Lithium Ion Conductors |
He, Lian-Xing
(Solid State Ionics Research, Lab., School of Material Science and Engineering, Seoul National University)
Yoo, Han-Ill (Solid State Ionics Research, Lab., School of Material Science and Engineering, Seoul National University) |
1 |
A High Energy Density Solid State Battery System
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DOI ScienceOn |
2 |
Conductivity Mechanism in <TEX>$Li_2SO_4-Ag_2SO_4$</TEX> Binary System
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DOI ScienceOn |
3 |
Lithium Ion Conductivity of Polycrystalline Perovskite <TEX>$La_{0.67-x}Li_{3x}TiO_3$</TEX> with Ordered and Disordered Arrangement of the A-site Ions
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DOI ScienceOn |
4 |
Electrolyte Effects on Spinel Dissolution and Cathodic Capacity Losses in 4 V Li/<TEX>$Li_{x}Mn_2]O_4$</TEX> Rechargeable Cells
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5 |
Conduction Characteristics of the Lithium Iodide-aluminum Oxide Solid Electrolytes
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6 |
Ionic Glasses History and Challenges
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7 |
Phase Diagram and Ionic Conductivity of <TEX>$Li_2SO_4-Li_3VO_4$</TEX> System
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8 |
Lithium Ion Conductivity of <TEX>$LiPN_2\;and\;Li_7PN_4$</TEX>
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9 |
Electrical Properties of New Glasses Based on the <TEX>$Li_2S-SiS_2$</TEX> System
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10 |
Determination of the Crystallzation Enthalpies of Lithium Ion Conducting Alumino-silicate Glasses
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11 |
New Lithium Ion Conductors Based on the NASICON Structure
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12 |
Electrical Properties of <TEX>$La_{1.33-x}Li_{3x}Ti_2O_6\;(0.1<x<0.3)$<TEX>
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13 |
Ionic Conduction of Lithium for Perovskite Type Compounds, <TEX>$(Li_{0.05}La_{0.317})_{1-x}Sr_{0.5x}]NbO_3$</TEX>, <TEX>$(Li_{0.1}La_{0.3})_{1-x}Sr_{0.5x}NbO_3$</TEX> and <TEX>$(Li_{0.25}La_{0.25})_{1-x}M_{0.5x}NbO_3$</TEX> (M=Ca and Sr)
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DOI ScienceOn |
14 |
Influence of Aliovalent Cation on the Conductivity of Monolinic <TEX>$Li_2SO_4$</TEX> and the Sulpahte-carbonate Eutectic
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15 |
Ionic Conductivity of <TEX>$Li^+$</TEX> Ion Conductors, <TEX>Li_{4.2}M_xSi_{1-x}O_4\;(M=B^{3+},\;Al^{3+},\;Ga^{3+},\;Cr^{3+},\;Fe^{3+},\;Co^{2+},\;Ni^{2+})$</TEX>
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DOI ScienceOn |
16 |
Lithium Ion Conductivity and Thermal Behavior of Glasses and Crystallzed Glasses in the System <TEX>$Li_2O-Al_2O_3-TiO_2-P_2O_5$</TEX>
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DOI ScienceOn |
17 |
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18 |
Electrical Properties of Superionic Conducting Glasses in the Pseudibunary System <TEX>$CuI-Cu_2MoO_4$</TEX>
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DOI |
19 |
Preparation and Ionic Conductivity of the Rapidly Quenched Glassed in the System <TEX>$Li_2O-TiO_2-P_2O_5$</TEX>
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20 |
High Lithium Ion Conductivity in the Perovskite-type Compounds <TEX>$Ln_{\frac{1}{2}}Li_{\frac{1}{2}}TiO_3$</TEX> (Ln-La, Pr, Bd, Sm)
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21 |
Electrical Property and Sinterability of <TEX>$LiTi_2(PO_4)_3$</TEX> Mixed with Lithium Salt <TEX>$Li_3PO_4$</TEX> or <TEX>$Li_3PO_4$</TEX>
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22 |
A Lithium Plastic Batteries Using a Cr-stabililized Manganese Spinel Cathode
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23 |
Ionic Conductivity of Solid Lithium Ion Conductors with the Spinel Structure:<TEX>$Li_2MCI_4$</TEX> (M=Mg, Mn, Fe, Cd)
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24 |
Novel Nanodispersive Composite Cathode for Rechargeable Litium/Polymer Batteries
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25 |
Phase Diagram and Ionic Conductivity of the Lithium Chloride-Oron(Ii) Chloride System
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26 |
Phase Diagram and Electrical Conductivity of the <TEX>$Li_2SO_4-Li_2CO_3$</TEX> System
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27 |
Development of a Lithium-ion Polymer Battery for Space Power Application
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28 |
Recent Advances in Lithium Ion Battery Materials
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29 |
Potentiometric Gas Sensors for Oxidic Gases
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30 |
New Solid Ionic Conductors
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31 |
NASICON to Scandium Wolframete Transition in <TEX>$Li_{1+x}M_{x}Hf_{2-x}(PO_4)_3$</TEX> (M=Cr, Fe): Structure and Ionic Conductivity
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DOI ScienceOn |
32 |
Oeder-disorder of the A-site Ions and Lithium Ionics Conductivity in Perovskite Solid Solution <TEX>$La_0{0.67-x}Li_{3x}TiO_3$</TEX> (x=0.11)
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33 |
Electrical Properties of Lithium Conductive Silicon Sulfide Glasses Prepared by Twin Roller Quenching
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34 |
Solid State Batteries Using Vitreous Solid Electrolytes
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35 |
Ionic Conductive Sulfide-based <TEX>$M_2S-GeS_2-MI\;(M=Li, Ag)$</TEX> Glass System: their Use in Solid State Batteries
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36 |
Superionic Conduction in <TEX>$Li_2S-P_2S_5-LiI-glasses$</TEX>
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37 |
A Highly Conductive <TEX>$Li_+$</TEX> Glass System: <TEX>$(1-x)(0.4SiS_2-0.6Li_2S)-xLiI$</TEX>
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38 |
Superionic Conductivity of Glass-ceramics in the System <TEX>$Li_2O-Al_2O_3-TiO_2-P_2O_5$</TEX>
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39 |
Crystallization of Lithium Zinc Silicates
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DOI |
40 |
Ionic Conductivity and Sinterability of Lithium Tutanium Phosphates Systems
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41 |
Ionic Conductivity of LISICON Solid Solutions, <TEX>Li_{2+2x}Zn_{1-x}GeO_4$</TEX>
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42 |
Ionic Conductivity of <TEX>$Li_{4-2x}Mg_xSiO_4$</TEX>
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43 |
Conductivity Enhancement Mechanism of Interstitial-type <TEX>Li^+$</TEX> Conductor, <TEX>Li_{4+x}B_xSi_{1-x}]O_4\;(0{\le}x{\le}0.7)$</TEX>
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44 |
Electrical Properterties of the Solid Solution <TEX>$Li_{4-3x}In_xSiO_4$</TEX>
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45 |
Behavior of <TEX>$Li_4SiO_4$</TEX> and its Solid Solution During.D.C and A.C Measurement
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46 |
Ionic Motion of Terahedrally and Octahedrally Coordinated Lithium Ions in Ternary and Quaternary Halides
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47 |
Fast Ionic Conductivity of Ternary Iodides in the Systems <TEX>LiI-M^{II}I_2\;(M^II=Mn, Cd, Pb)$</TEX>
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48 |
Ion Diffusion in the High-temperature Phases <TEX>$Li_2SO_4,\;LiNaSO_4,\;LiAgSO_4\;and\;Li_4Zn(SO_4)_3$</TEX>
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49 |
Composite Solid Electrolytes in the <TEX>$Li_2SO_4-Al_2O_3$</TEX> System
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50 |
Fabrication of <TEX>$Li_3PO_4-Al_2O_3$</TEX> Composites by an Electrochemical Technique
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DOI ScienceOn |
51 |
Lithium Ion Conductor in A-Site Deficient Perovskites <TEX>$A_{\frac{1}{4}}Li_{\frac{1}{4}}TaO_3$</TEX> (R=La, Nd, Sm, and Y)
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52 |
Stueeture and Microstructural Studies of the Series <TEX>$Li_{3x}La_{{\frac{2}{3}}-x}TiO_3$</TEX>
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53 |
Dependence of the Lithium Ionic Conductivity on the B-site Ion Substitution in <TEX>$Li_{0.5}La_{0.5}Ti_{1-x}M_{x}O_3$</TEX> (M=Sn, Zr, Mn, Ge)
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DOI ScienceOn |
54 |
Lithium Ion Mobility and Actication Energy for Lithium Ion Conduction in A-site Deficient Perovskites <TEX>$La_{{{\frac{1}{3}}-x}Li_{3x}TaO_3$</TEX>
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DOI |
55 |
Solid State <TEX>$CO2$</TEX> Sensor Using an Electrolyte in the System <TEX>$Li_2CO_3-Li_3PO_4-Al_2O_3$</TEX>
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DOI ScienceOn |
56 |
Fast Ion Transport in <TEX>LiZr_2(PO_4)_3$</TEX>: Structure and Conductivity
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DOI ScienceOn |
57 |
Self-dischargable of <TEX>LiMn_2O_4$</TEX>/C Li-ion Cells in their Dischargeable State
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DOI ScienceOn |
58 |
Preparation, Structure and Ionic Conductivity of Lithium Phosphide
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59 |
New Lithium Ion Conductors Based on <TEX>$Li_2S-SiS_2$</TEX> System
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DOI ScienceOn |
60 |
Study of the Lithium Solid Electrolytes Based on Lithium Nitride Chloride <TEX>$(Li_9N_2Cl_3)$</TEX>
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DOI ScienceOn |
61 |
A Distrubution of Activation Energies for the Local and Long-range Ionic Motion is Consisted with the Disordered Structure of the Peroskite <TEX>$Li_{3x}La_{{\frac{2}{3}}-x}TiO_3$</TEX>
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DOI ScienceOn |
62 |
De Nouveaus Verres Conducteurs Par LIon Lithium Et Leurs Applications Dans Des Generateurs Electrochimiques
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DOI ScienceOn |
63 |
Effects of Substitution and Pressure on Lithium Ion Conductuvity in Perovskites <TEX>$Ln_{\frac{1}{2}}Li_{\frac{1}{2}}TiO_3$</TEX> (Ln=La, Pr, Nd, Sm)
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DOI ScienceOn |
64 |
New Lithium-ion Conducting Compounds <TEX>$3Li_3N-MI$</TEX> (M=Li, Na, K, Rb) and their Application to Solid State Lithium-ion Cells
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DOI ScienceOn |
65 |
High Ionic Conductivity in Lithium Lanthanum Titanate
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DOI ScienceOn |
66 |
Fast Ionic Lithium Conduction in Solid Lithium Nitride Chloride
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DOI ScienceOn |
67 |
Conductivity Relaxation in Lithium Ion Conductors with the Perovskite-type Structure
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DOI ScienceOn |
68 |
Mechanism of Ionic Conduction and Electrochemical Intercalation of Lithium into the Perovskite Lanthanum Lithium Titanate
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DOI ScienceOn |
69 |
The Electrical Properties of Ceramic Electrolytes for <TEX>$LiM_{x}Ti_{2-x}(PO_4)_3 + yLi_2O$</TEX>, M=Ge, Sn, Hf and Zr, Systems
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DOI ScienceOn |
70 |
Structures, Ionic Conductivity and Phase Transformation of Double Chloride Spinels
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DOI ScienceOn |
71 |
Ion Trapping and its Effects on the Conductivity of LISICON and Other Solid Electrolytes
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DOI ScienceOn |
72 |
Comparative Study of Lithium Icon Conductors in the System <TEX>$Li_{1+x}Al_{x}(PO_4)_3#</TEX> with <TEX>$Li^+$</TEX> Sensitive Membranes
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DOI ScienceOn |
73 |
Electrochemical Properties for the Lithium Ion Conductive <TEX>$(100-x) (0.6Li_2S-0.4SiS_2)-xLi_4SiO_4$</TEX> Oxysulfide Glasses
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DOI |
74 |
Crystallization of Lithium Magnesium Zinc Silicates, Part1 Phase Equilibria in the System <TEX>$Li_4SiO_4-Mg_2SiO_4-Zn_2SiO_4$</TEX>
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DOI |
75 |
A First Approach to a Monolithic all Solid State Inorganic Lithium Battery
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DOI ScienceOn |
76 |
Phase Relationships and Electrical Conductivity of <TEX>Li_{1+x}Ge_{2-x}Al_{x}P_3O_{12}$</TEX> and <TEX>$Li_{1+x}Ge_{2-x}Cr_{x}P_3P_{12} Systems
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DOI ScienceOn |
77 |
Lithium Ion Transport in <TEX>$Li_2SO_4-Li_2O-P_2O_5$<TEX> Glasses
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DOI ScienceOn |
78 |
Solid State <TEX>$CO_2$</TEX> Sensors with <TEX>$Li_2CO_3-Li_3PO_4-LiAlO_2$</TEX> Electrolyte and <TEX>$LiCoO_2-Co_3O_4$</TEX> as Solid Reference Electrolyte
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DOI ScienceOn |
79 |
Electrical Conductivity and Phase Diagram of the System Li[sub 2]SO[sub 4]-Li[sub 3]PO[sub 4]
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DOI ScienceOn |
80 |
Phase Transition and Ionic Conductivity of the Lithium Sulphate-lithium Phosphate System
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DOI ScienceOn |
81 |
Phase Diagram, Electrical Conductivity, and Cation Diffusion of the System Lithium Suphase-Zinc Sulphase
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DOI ScienceOn |
82 |
New Perovsike-type Lithium Ion Conductors, <TEX>$La_xM_yLi_{1-3x-y}NbO_3$<TEX> (M-Ag and Na)
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DOI ScienceOn |
83 |
Gas Sensors Using Solid Electrolytes
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84 |
Electrolytic Stability Limit and Rapid Lithium Insertion in the Fast-ion-conductivity <TEX>$Li_{0.29}La_{0.57}TiO_3$</TEX> Perovskite-type Compound
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DOI ScienceOn |
85 |
Performance of Li/TiS₂Solid State Batteries Using Phosphorous Chalcogenide Network Former Glasses as Solid Electrolyte
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DOI ScienceOn |
86 |
Effect of Rapid Quenching on Electrical Properties of Lithium Conductive Glasses
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DOI ScienceOn |
87 |
Preparation and Characterization of Lithium Ion-conducting Oxysulfide Glasses
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DOI ScienceOn |
88 |
Lithium Batteries: A 50-year Perspective, 1959-2009
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DOI ScienceOn |
89 |
CO₂Detection with Lithium Solid Electrolyte Sensors
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90 |
Formation of Perovkite Solid Solutions and Lithium-ion Conductivity in the Compositions <TEX>Li_{2x}Sr_{1-2x}M_{0.5-x}Ta_{0.5+x}O_3$</TEX> (M=Cr, Fe, Co, Al, Ga, InY)
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DOI ScienceOn |
91 |
Rechargeable Lithium Thin Films Cell with Inorganic Electrolytes
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DOI ScienceOn |
92 |
Preparation and Physical Properties of Lithium Phosphide-lithium Chloride, a Solid Electrolyte for Solid State Lithium Batteries
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DOI ScienceOn |
93 |
Lithium Aluminum Nitride, <TEX>$Li_3AIN_2$</TEX> as a Lithium Solid Electrolyte
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DOI ScienceOn |
94 |
Preparation and Characterization of New Pervskote Oxides <TEX>$La_xNa_{1-3x-y}Li_yNbO_3\;(0.0{\le}x\;and\;y{\le0.2)$</TEX>
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DOI ScienceOn |
95 |
Ionic Conductivity of Spinel-type Qunternary Lithium Chlorides-phase Diagram of <TEX>$LiI-M^ICl-M^{II}Cl_2\;(M^I=Cu, Na,\;M^{II}=Mn, Cd, Mg)$</TEX>
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DOI ScienceOn |
96 |
Synthesis and Crystallographic Data for the System <TEX>$Li_{1+x}Ti_{2-x}In_{x}(PO_4)_3$</TEX>
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DOI ScienceOn |
97 |
Conductivity of Dispersed Ionic Conductors A Percolation Model with Critical Points
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98 |
Thermal and Electrical Properties of Rapidly Quenched Glasses in the Systems <TEX>$Li_2S-SiS_2-Li_xMO_y\;(Li_xMO_y=Li_4SiO_4,\;Li_2SO_4)$</TEX>
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DOI ScienceOn |
99 |
Dispersive Ionic Conductors and Percolation Theory
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DOI ScienceOn |
100 |
Novel Type of Lithium-ion Polymer Electrolyte Batteries
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DOI ScienceOn |
101 |
The Effects of Mixed Anions in Ionic Conductive Glass
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DOI ScienceOn |
102 |
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103 |
Effect of Morphology and Particle Size on the Ionic Conductivities of the Composite Solid Electrolytes
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DOI ScienceOn |
104 |
Solid State <TEX>$CO_2$</TEX> Sensor Using <TEX>LiCO_3-Li_3PO_4-Al_2O_3$</TEX> Solid Electrolyte and <TEX>$LiMn_2O_4$</TEX> as Reference Electrode
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과학기술학회마을 |
105 |
Improved Stability for the <TEX>$SiS_2-P_2S_5-Li_2S-LiI$</TEX> Glass System
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DOI ScienceOn |
106 |
Ion Conductivity of Polymer Electrolytes Derived from Poly(p-phenlene Terephthalamide)
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DOI ScienceOn |
107 |
Phase Diagrams of Binary <TEX>$Li_2SO_4-MeSO_4$</TEX> (Me=Be, Mg, Ca, Sr, Ba, Zn, Cd, Mn)
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DOI ScienceOn |
108 |
Ionic Conductivity of Lithium Phosphate-doped Lithium Orthosilicate
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DOI ScienceOn |
109 |
Preparation and Ionic Conductivity of New <TEX>$B_2S_3-Li_2S-LiI$</TEX> Glasses
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DOI ScienceOn |
110 |
Ionic Conductivity of <TEX>$Li^+$</TEX> Ion Conductors <TEX>$LiM^{3+}M^{4+}P_3O_12$</TEX>
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DOI ScienceOn |
111 |
High Ionic Conductivity in Densified Polycrystalline Lithium Nitride
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DOI ScienceOn |
112 |
New Fast Lithium Ionic Conductor in the <TEX>$Li_3N-LiI-LiOH$</TEX> System
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DOI ScienceOn |
113 |
Solid Electrolyte CO₂Sensor with Li-ion Conductors
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114 |
Inorganic Conductivity Studies on <TEX>$Li_{1-x}M_{2-x}M_{x}P_3O_{12}$</TEX> (M=Hf, Zr, M=Ti, Nb)
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DOI ScienceOn |
115 |
Fast <TEX>$Na^+-ion$</TEX> Transport in Skeleton Structures
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DOI ScienceOn |
116 |
Crystal Structure and Ionic Conductivity of <TEX>$Li_{14}Zn(GeO_4)_4$</TEX> and Other New <TEX>$Li^+$</TEX> Superionic Conductors
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DOI ScienceOn |
117 |
Influences of Carrier Concentration and Site Percolation on Lithium Ion Conductivity in Perovskite-type Oxide
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DOI ScienceOn |
118 |
Electrical Conductivity of Solid and Molten Lithium Sulfate
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119 |
Ionic Conductivity of Solid Electrolytes Based on Lithium Titanium Phosphate
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DOI |
120 |
Influence of the Preparation Process on the Cation Trasport Properties of <TEX>$Li_{4+x}M_xSi_{1-x}O_4$</TEX> (M=B, Al) Solid Electrolytes
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DOI ScienceOn |
121 |
Evaluation of the ac Response of Li-electrolytic Perovskites <TEX>$Li_{0.5}(Ln_{x}La_{0.5-x})TiO_3$</TEX> (Ln=Nd, Gd) in Conjuction with their Crystallographic and Microstructure Characteristics
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DOI ScienceOn |
122 |
Solid State Lithium Battery with Oxysulfide Glass
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123 |
Space Charge Regions in Solid Two-phase System and their Conduction Contribution. I. Conductance Enhancement in the System Ionic Conductor Interphase and Application on AgCl:<TEX>$Al_2O_3$</TEX> and AgCl:<TEX>$SiO_2$</TEX>
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DOI ScienceOn |
124 |
Influence of Zirconia Doping on the Physical Properties of LISICON
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DOI ScienceOn |
125 |
Particle Size Effect on the Conducting of Dispersed Ionic Conductors
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126 |
Review of Gel-type Polymer Electrolytes for Lithium-ion Batteries
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DOI ScienceOn |
127 |
New <TEX>$Li^+$</TEX> Ion Conductors in the System <TEX>$Li_4GeO_4-LiVO_4$</TEX>
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DOI ScienceOn |
128 |
New Fast Solid Lithium Ion Conductors at Low and Intermediate Temperature
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DOI ScienceOn |
129 |
Candidate Compounds with Perovsikite Structure for High Lithium Ionic Conductivity
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DOI ScienceOn |
130 |
Electrical Properties and Crystal Structure of Solid Electrolyte Based on Lithium Hafnium Phosphate <TEX>$LiHf_2(PO_4)_3
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DOI ScienceOn |
131 |
Electrical Properties and Sinterability for Lithium Germanium Phosphate <TEX>$Li_{1+x}M_{x}Ge_{2-x}(PO_4)_3$</TEX> M=Al, Cr, Ga, Fe, Se and In System
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DOI ScienceOn |
132 |
<TEX>$Li_9SiAlO_8$</TEX>: A Lithium Ion Electrolyte for Voltages above 5.4 V,
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DOI ScienceOn |
133 |
Crystal Structures and Crystal Chemistry in the System <TEX>$Na_{1+x}Zr_2Si_{x}P_{3-x}O_{12}$</TEX>
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DOI ScienceOn |
134 |
New Double Chloride in the <TEX>$LiCl-CoCl_2$</TEX> System: II Preparation, Crystal Structure, Phase Transformation, Ionic Conductivity of <TEX>$Li_2CoCl_4$</TEX> Spinel
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DOI ScienceOn |
135 |
Synthesis and Electrophysical Properties of Novel Lithium Ion Conductivity Oxides
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DOI ScienceOn |
136 |
New Solid Electrolytes and Mixed Conductors <TEX>$Li_{3+x}Cr_{1-x}M_xO_4$</TEX>: M=Ge, Ti
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DOI ScienceOn |
137 |
Lithium Ion Conductivity in the Perovskite-type <TEX>$LiTaO_3-SrTiO_3$</TEX> Solid Solution
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DOI ScienceOn |
138 |
Influence of site Percolation and Local Distortion on Lithium Ion Conductivity in Perovskite Oxides <TEX>$La_{0.55}Li_{0.35-x}K_{x}TiO_3$</TEX> and <TEX>$La_{0.55}Li_{0.35}TiO_3-KMO_3$</TEX> (M=Nb and Ta)
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DOI ScienceOn |
139 |
Fast <TEX>$Li^+$</TEX> Ion Transport in Indine-thioborate Glasses
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DOI ScienceOn |