Characterizations and electrochemical behaviors of disproportionated SiO and its composite for rechargeable Li-ion batteries
Citations Over TimeTop 10% of 2010 papers
Abstract
Commercially available solid SiO is composed of amorphous Si with silicon suboxides of various valence states. Solid SiO is thermodynamically unstable at all temperatures, which would disproportionate to Si and SiO2. Disproportionation of SiO at several temperatures was characterized with various analytical techniques, such as XRD, XPS, NMR and HRTEM methods, and it was found that the sample heat treated at 1000 °C contained well-developed Si nanocrystals uniformly dispersed within an amorphous SiOx matrix. Using this sample, a nano-Si/SiOx/graphite composite was obtained by a straightforward high-energy mechanical milling technique. The nano-Si/SiOx/graphite composite was tested as an anode material for Li secondary batteries, and showed better electrochemical behaviors than those of pure SiO.
Related Papers
- → Effects of alloying substitutions on the anti-disproportionation behavior of ZrCo alloy(2017)44 cited
- Study on disproportionation reaction of Fe_(1-x)O by DSC(2012)
- → Isomerization-disproportionation of m-xylene over dealuminated mordenites(1984)2 cited
- Disproportionation behaviour of LaNi_(5-x)M_x in hydriding process at High Temperature(2000)
- → ChemInform Abstract: Disproportionation‐Combination Rate Constant Ratios for Haloalkyl Radicals: Evidence for Heterogeneous Disproportionation.(1987)