Structural changes of Li3.1Mn0.91Cr1.09O4 cathode material
Cited 16 times inCited 15 times in
- Structural changes of Li3.1Mn0.91Cr1.09O4 cathode material
- Cho, Jaephil; Kim, YJ; Park, B
- Li3.1Mn0.91Cr1.09O4; c/a ratio; Mn3+ dissolution; cation-mixing
- Issue Date
- ELSEVIER SCIENCE BV
- SOLID STATE IONICS, v.138, no.3-4, pp.221 - 225
- Changes in the microstructure of Li3.1Mn0.91Cr1.09O4 cathode materials have been studied with cycled electrodes at 21 or 55 degreesC. During cycling, the structure of Li3.1Mn0.91Cr1.09O4 maintained its original hexagonal symmetry. However, a decreased peak intensity ratio of 003 to 104 with little lattice-constant shifts was observed. These are due to increased cation-mixing and dissolution of Mn3+ ions in the electrolyte, thus leading to structural degradation of the material. Hence, the cathode exhibited a specific discharge capacity decay of 29% from its initial capacity (220 mAh/g) after 60 cycles between 4.5 and 2 V with a 0.1 C rate at 21 degreesC.
- ; Go to Link
- Appears in Collections:
- ECHE_Journal Papers
- Files in This Item:
can give you direct access to the published full text of this article. (UNISTARs only)
Show full item record
Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.