期刊
JOURNAL OF THE ELECTROCHEMICAL SOCIETY
卷 156, 期 4, 页码 K44-K50出版社
ELECTROCHEMICAL SOC INC
DOI: 10.1149/1.3056051
关键词
adsorbed layers; aluminium compounds; carbon nanotubes; diffusion; electrolytes; iron compounds; lithium compounds; organic compounds; oxidation; reduction (chemical); ruthenium compounds; thin films; voltammetry (chemical analysis)
资金
- Czech Ministry of Education, Youth and Sports [LC-510, COST D35 1P05OC069]
- Academy of Sciences of the Czech Republic [IAA 400400804, KAN 200100801]
- Swiss National Science Foundation
The supramolecular assembly of Ru-bipyridine complex, coded Z-907Na, with single-walled carbon nanotube (SWNT) exhibits unique redox behavior, which is applicable for the nanotube wiring of LiFePO4 (olivine). Cyclic voltammograms of thin films of Z-907Na/SWNT reveal two pairs of peaks labeled C-1 and C-2 with formal redox potentials of ca. 3.6 and 3.8 V vs Li/Li+, respectively, indicating two surface-confined redox couples. The same behavior was also found for the Z-907Na adsorbed on carbon black, but not for the Z-907Na adsorbed on Al2O3 or dissolved in the electrolyte solution. In these cases, a single diffusion-controlled voltammogram is observed, with one redox couple at ca. 3.6 V vs Li/Li+. The diffusion coefficients equal 7.8x10(-10) cm(2)/s (for Z-907Na adsorbed on Al2O3) or 1.5x10(-6) cm(2)/s (for Z-907Na in solution). An interpretation is suggested that the C-1 peak is for a hydrophilic interaction, that is anchoring of Z-907Na to the carbon surface via carboxylic groups, and the C-2 peak is for a hydrophobic anchoring, that is interaction with the carboxyl-free bipyridine ligand with the carbon surface. The existence of C-1/C-2 peaks provides further insight into the nanotube wiring of LiFePO4 (olivine) using various nanotubes.
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