| File | |
| Authors | |
| Keywords | Si anode material
Electroless Deposition
Gas-deposition
Lithium Rechargeable Battery
|
| Abstract | Thick film electrodes of Cu-coated Si particles were fabricated by an electroless deposition and a successive gas-deposition, and were evaluated their electrochemical properties as an anode of Li-ion battery. The discharge capacity and its retention at the 1000th cycle were 570 mAh g-1 and 61%. The excellent cycle life performance is attributed to an enhanced electrical conductivity due to the Cu-coating and a reversible conversion reaction between Li and Cu2O which was formed on the Cu surface. The high capacity retention is caused by a high fracture toughness of the coated Cu which can effectively relax a stress induced by volume expansion of Si as a buffer matrix.
|
| Publisher | 電気化学会
|
| Content Type |
Journal Article
|
| Link | |
| ISSN | 1344-3542
|
| NCID | AN00151637
|
| Journal Title | Electrochemistry
|
| Current Journal Title |
Electrochemistry
|
| Volume | 78
|
| Issue | 5
|
| Start Page | 329
|
| End Page | 331
|
| Published Date | 2010-01-12
|
| Publisher-DOI | |
| Text Version |
Author
|
| Rights | Copyright © 2010 The Electrochemical Society of Japan
|
| Citation | Electrochemistry. 2010, 78(5), 329-331
|
| Department |
Faculty of Engineering/Graduate School of Engineering
|
| Language |
English
|
