Vanadium lithium oxide

Lithium-Vanadium Oxide 2.5.3 Lithium-Polyaniline Secondary Batteries Batteries... [Pg.45]

Lithium-vanadium oxide rechargeable batteries were developed as memory backup power sources with high reliability and high energy density. [Pg.45]

Table 11. Specifications of secondary lithium-vanadium oxide batteries...

Secondary lithium-metal batteries which have a lithium-metal anode are attractive because their energy density is theoretically higher than that of lithium-ion batteries. Lithium-molybdenum disulfide batteries were the world s first secondary cylindrical lithium—metal batteries. However, the batteries were recalled in 1989 because of an overheating defect. Lithium-manganese dioxide batteries are the only secondary cylindrical lithium—metal batteries which are manufactured at present. Lithium-vanadium oxide batteries are being researched and developed. Furthermore, electrolytes, electrolyte additives and lithium surface treatments are being studied to improve safety and recharge-ability. [Pg.57]

Catalogue of lithium-vanadium oxide secondary batteries, Matsushita Battery Industrial Co., Ltd., 1996. [Pg.60]

Structural Analysis and First-Principles Calculation of Lithium Vanadium Oxide for Advanced Li-Ion Batteries... [Pg.24]

Abstract The structural and theoretical possibility of lithium vanadium oxide as next... [Pg.24]

The electronic structures and chemical bonding of lithium vanadium oxide were calculated by the DV-Xa method [10,11] using the program code [12]. The population analysis was made according to Mulliken [13]. The ab initio total-energy and molecular dynamics program VASP [14-16], based on the density... [Pg.26]

The calculation of the electronic states of lithium vanadium oxide is carried out using cluster models taken from bulk crystal. The model clusters which are... [Pg.28]

Figure 3.2 The structure of initial and charged state of lithium vanadium oxide (a) initial state (LinVo.gOj), (b) charged state (Li21V0 902).

Figure 3.3 The XRD pattern of lithium vanadium oxide as charged state.

In order to discuss the valence electronic state and chemical bonding of lithium vanadium oxide we made calculations using cluster models. The density of states (DOS) and the partial density of states (PDOS) of Li1.1V0.9O2 are obtained by this study as shown in Figure 3.4. The filled band located from —8 to —3 eV is mainly composed of O 2p orbital. The partially filled band located around —2 to 4 eV is mainly composed of V 3d orbital. Unoccupied band located above 5 eV is... [Pg.29]

Poster 7. Yang-Soo Kim, Ri-Zhu Yin, Wan-Wook Choi and Sung-Soo Kim (Samsung SDI Co. Ltd.) Lithium Vanadium Oxide as Next Generation Negative Material for Advanced Li-Ion Batteries Structure, Analysis, and First-Principles Calculation... [Pg.387]

Lithium vanadium oxide LiVjOs- In L12O-V2O5 system within the range 50-100% LijO, two V -containing compounds exist L1VO3 and... [Pg.105]

The earliest implantable defibrillators used lithium-vanadium oxide (LiA 205) cells. The chemical stability of this type of cell was unsatisfactory, and they were soon replaced with lithium-silver vanadium oxide (Li/Ag2V40n or Li/SVO) cells. Until only the last few years, AlAgjW4Ou cells were by far the most common cell system used in implantable defibrillators. [Pg.374]

Soft Solution Processing OF Nanoscaled Lithium Vanadium Oxides AS Cathode Materials FOR Rechargeable Lithium Ion Batteries... [Pg.181]

Soft Solution Processing of Nanoscaled Lithium Vanadium Oxides. .. 183... [Pg.183]

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