Pyrolyzed bacterial cellulose-supported SnO2 nanocomposites as high-capacity anode materials for sodium-ion batteries
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- 作者:Burcu Dursun ; Taner Sar ; Ali Ata ; Mathieu Morcrette ; Meltem Yesilcimen Akbas…
- 刊名:Cellulose
- 出版年:2016
- 出版时间:August 2016
- 年:2016
- 卷:23
- 期:4
- 页码:2597-2607
- 全文大小:1,712 KB
- 刊物类别:Chemistry and Materials Science
- 刊物主题:Chemistry
Bioorganic Chemistry
Physical Chemistry
Organic Chemistry
Polymer Sciences - 出版者:Springer Netherlands
- ISSN:1572-882X
- 卷排序:23
文摘
Room-temperature sodium-based batteries have the potential for meeting large-scale grid energy storage needs. Inspired by the advancement of the design and building of electrode materials in lithium ion batteries, improved nano-architectured electrodes can be created for sodium-ion batteries, allowing increased electron transport kinetics and conductivities. Here, nanocomposites with 3D porous structures are reported as a high-capacity anode material for sodium-ion batteries by using an easy, low-cost and environmentally friendly synthesis of pyrolyzed bacterial celluloses (PBCs). Bacterial celluloses (BCs) produced by the Gluconacetobacter xylinus strain are pyrolyzed at 500, 750 and 1000 °C, resulting 50, 130 and 110 mAh g−1 capacities over 80 numbers of cycles, respectively, in the presence of the binary ethylene carbonate–propylene carbonate mixture. In order to increase the cell performances, in situ coated SnO2 nanoparticles with bacterial cellulose (SnO2@PBC) are produced by addition as synthesized 5-nm-sized SnO2 nanoparticles into the BC growth medium together with the G. xylinus strain. Following the pyrolysis at 500 °C, the SnO2@PBC composite is better able to handle the accommodation of the dramatic volume change of the incorporated SnO2 nanoparticles because of the interaction of oxygen-containing moieties of bacterial cellulose nanofibrils with the SnO2 nanoparticles during cellulose production. The resulting SnO2@PBC composite presents highly stable capacity retention of around 400 mAh g−1 capacities at C/10 current density over 50 numbers of cycles.KeywordsPyrolyzed bacterial celluloseCarbonSnO2AnodeSodium-ion batteries