Infiltrating sulfur in hierarchical architecture MWCNT@ meso C core–shell nanocomposites for lithium–sulfur batteries
We present hierarchical architecture MWCNT (multi-walled carbon nanotubes)@ meso C
core–shell nanostructures as a carbon matrix for effective trapping of sulfur/polysulfides as a
cathode material for Li–S batteries. The unique structure of MWCNT@ meso C core–shell
nanocomposites was achieved by using a sol–gel coating method followed by nanocasting.
By infiltrating sulfur into the matrix, S/MWCNT@ meso C core–shell nanocomposites were
achieved. This material exhibited an initial discharge capacity of 1248 mA hg− 1 although it …
core–shell nanostructures as a carbon matrix for effective trapping of sulfur/polysulfides as a
cathode material for Li–S batteries. The unique structure of MWCNT@ meso C core–shell
nanocomposites was achieved by using a sol–gel coating method followed by nanocasting.
By infiltrating sulfur into the matrix, S/MWCNT@ meso C core–shell nanocomposites were
achieved. This material exhibited an initial discharge capacity of 1248 mA hg− 1 although it …
[PDF][PDF] INFILTRATING SULFUR IN A HIERARCHICAL ARCHITECTURE MWCNT@ MESO C CORE-SHELL NANOCOMPOSITES FOR LITHIUM-SULFUR BATTERIES
FJDS Muller, HD Abruña - … Electrochemical Energy Systems …, 2014 - ecommons.cornell.edu
… Inspired by these previous work, by combining the advantages of MWCNTs and Meso Cs,
the hierarchical architecture of MWCNT@ Meso C nanocomposites with high surface …
Infiltrating sulfur into the MWCNT@ meso C core-shell nanocomposites was …
the hierarchical architecture of MWCNT@ Meso C nanocomposites with high surface …
Infiltrating sulfur into the MWCNT@ meso C core-shell nanocomposites was …