Lithium Ion CONDUCTIVE GLASS CERAMICS LICGC ™
OHARA INC
About This Product
It is a solid electrolyte material with high lithium -ion conductivity. Because it is a solid electrolyte of an oxide system, it can be handled in the atmosphere and has high safety.
LICGC, which has excellent material characteristics, has the potential to solve the environmental performance of various products.
Examples of use are used for the electrolytes of next -generation lithium -ion battery, separator, CO2 sensor, next -generation capacitors, lithium -ion recovery technology in seawater, and other electrochemical devices.
feature
01 It does not melt in water
02 It doesn't burn
03 Do not pass through the air
High chemical stability
・ Stable in the atmosphere (easy to handle in a atmosphere)
・ Pass only lithium ions without passing water and air (AG-01, SP-01)
・ Water resistance: Powder method (RW (P) JogiSclass1)
* During pure water boiling bath for 60 minutes, mass reduction <0.05WT%
・ A acid resistance: powder method (RA (P) JogiSclass1)
* 0.01n Processing for 60 minutes during a boiling bath with nitrate, mass reduction <0.2wt%
・ Heat resistance: Up to 800 ° C for atmosphere, no weight change, no fever reaction
Oxide -to -class ionic conductivity
・ LICGC ™ PW-01: 1 × 10-3 S/CM
・ LICGC ™ SP-01: 3 × 10-4 S/CM
・ LICGC ™ AG-01: 1 × 10-4 S/CM
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Product
Lithium Ion CONDUCTIVE GLASS CERAMICS LICGC ™
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Handling Company
OHARA INC
3 Models of Lithium Ion CONDUCTIVE GLASS CERAMICS LICGC ™
Items marked with have different values depending on the model number.
Click on the part number for more information about each product
| Product Image | Part Number | Price (excluding tax) | Chemical durability | Hydrogen ion concentration | Ionic conductivity | Main crystal phase | Material composition | Mechanical characteristics | Outer shape | Thickness | shape | specific gravity |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
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AG-01 |
Available upon quote | - | - | 1 x 10-4scm-1@25 ℃ | LI1+X+YALX (Ti, Ge) 2-XSIYP3-YO12 (Li replacement NASICON type) | LI2O-AL2O3-SIO2-P2O5-TIO2-GEO2 system | Bending strength (4 -point bending) 140N/mm2 Nup Hardness HK590 Pushing destructive intensity ≒ 10n | Round type: φ19mm, φ25.4mm (1 inch), φ50.8mm (2inch) square type: □ 25mm, □ 25.4mm (1 inch), □ 50mm | Round type: 0.15mmT, 0.25mmT square type: 0.02 mmt (ultra -thin substrate), 0.05mmT, 0.15mmT, 0.02mmT (ultra -thin substrate), 0.18mmT | Glass ceramic polishing board | 3.05 |
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SP-01 |
Available upon quote | - | - | 3 × 10-4scm-1@25 ℃ | LI1+X+YALXTI2-XSIYP3-YO12 (LI substitution NASICON type) | LI2O-AL2O3-SIO2-P2O5-TIO2 system | Pushing destruction intensity ≒ 4N | Round type: φ19mm square type: □ 10mm, □ 25.4mm (1 inch), □ 25.4mm (1 inch), □ 25.4mm (1 inch), □ 50mm, 50mm, □ 50mm, □ 50mm | Round type: 0.045mmT square type: 0.045mmT, 0.02mmT (ultra -thin substrate), 0.045mmT, 0.15mmT, .02mmT (ultra -thin substrate), 0.045mmT, 0.09mmT, 0.18mmT, 0.18mmT | Glass ceramic sintering board | 2.8 |
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PW-01 |
Available upon quote | Water -resistant RW (p) Jogis1 Acid resistant RA (P) Jogis1 Easy to handle in the atmosphere | pH7 | 1 x 10-3scm-1@25 ℃ | LI1+X+YALXTI2-XSIYP3-YO12 (LI substitution NASICON type) | LI2O-AL2O3-SIO2-P2O5-TIO2 system | - | - | - | □ Average particle size 1 μm (D-50) □ Average particle size 0.4 μm (D-50) | 2.8 |
Click on the part number for more information about each product
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About Company Handling This Product
- Japan
- Since 1935
- 478 employees