The synthesis of carbon nanotubes filled with silver,
gold, and gold chloride is described.
The resulting materials have been studied by high-resolution
electron microscopy, X-ray
powder diffraction, and energy-dispersive spectroscopy (EDS). The
EDS data were obtained
using a high-resolution electron microscope equipped with a field
emission gun which allowed
for X-ray analytical data to be obtained on individual particles
located within the carbon
nanotubes using a 0.7 nm probe.
In situ electrochemical atomic force microscopy (ECAFM) was used to study the surface films that form on highly ordered pyrolytic graphite (HOPG) electrodes during cathodic polarization in 1 M LiClO, EC:DMC (1:1) and M LiPF, EC:DMC (1:1) electrolytes. Cyclic voltammetry experiments confirmed that distinct reduction reactions occur when the potential of a fresh HOPG electrode is swept from 2.4 to 0.01.V vs. Li/Li + in a Li/HOPG cell. The reactions appear to be irreversible, since no evidence of corresponding oxidation reactions was observed. ECAFM results, when combined with slow-scan cyclic voltammetry data, suggest that different electrochemical reactions are occurring in these two electrolytes. The deposits were found to be several hundreds of nanometers thick. Auger analysis confirmed the presence of elements consistent with electrolyte reduction products. These observations have implications for understanding the formation of a solid electrolyte interphase on HOPG electrodes in lithium-ion batteries.
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