Journal
JOURNAL OF MATERIALS CHEMISTRY A
Volume 6, Issue 29, Pages 14392-14399Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8ta04128h
Keywords
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Funding
- European Commission [666157]
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An alginic acid-derived mesoporous carbonaceous material (Starbon (R) A300) was used as a sacrificial porous template providing both a reducing environment and anchoring sites for LMO precursors, KMnO4 and LiOH. After hydrothermal treatment at 180 degrees C for 24 h, the resulting nanocrystalline LMO particles (approximate to 40 nm) spontaneously aggregated, generating a mesoporous structure with a relatively high mesopore volume (approximate to 0.33 cm(3) g(-1)) and large pore size (approximate to 30 nm). Moreover, a small amount (approximate to 0.6 wt%) of residual carbon was present in this mesoporous LMO. This carbon, which arises from carbonaceous species grafted at the surface of the LMO nanoparticles, was found to significantly enhance the rate capability of LMO by reducing the internal electronic resistance. Finally, a green LMO electrode formulated using this Starbon-derived LMO as an active material, Starbon (R) A800 as a conductive additive and sodium alginate as a binder was tested, showing promising electrochemical performance.
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