Current LTO (Lithium titanate) is reviewed jungyimyeo that prevails in the lithium secondary battery for the EDLC.
That is, to develop quite an improvement in charging stability and speed of the conventional lithium ion battery.
  • Carbon material for a lithium battery anode (graphite) instead of using LTO nanocrystal (having a specific surface area of about 100 m2/g compared to carbon 3 m2/g)
  • Being able to provide a more rapid charging and high current .⇒ that is expected as a power source for a future electric vehicle
AC / LTO capacitor advantage
  • High energy density is higher than 80% higher than EDLC
  • Capacitance (Specific capacitance) is greater than 20% EDLC
  • For the same volume than EDLC can be reduced to 60%

Lithium Ion Capacitor

  • Lithium ion capacitor is a capacitor with a different asymmetric Hybrid electrode material for a cell to the anode and the cathode, Consists of an activated carbon anode material and the lithium ion-doped lithium composite graphite negative electrode material of a secondary battery of the electric double layer capacitor with a structure in combination.
  • Lithium ion capacitor of the key technologies in the work and contribute to the improved high-voltage lithium-doping technique and the energy becomes possible Increasing the positive electrode active material has high capacity and rate, and possibly the negative electrode material, it is important to maintain a high power high-output characteristic.
  • All are high-power lithium ion storage, long lifetime, environmental load, the reliability gidaedoem utilized in various fields as the market is expected.
  • In the distribution sector, as well as the instantaneous power, voltage sag compensation supplies (UPS), storage of natural energy and power leveling for practical use are moderated. This sector is expected to maintain the life or adaptation to meet with high-power, energy storage and the advantages of Supercapacitor Slowly that the application of the market is going.