Effective strategies for stabilizing sulfur for advanced lithium–sulfur batteries
The lithium-ion battery, with a relatively small energy density of∼ 250 W h kg− 1, has
dominantly powered many devices requiring small energy demands. However, there …
dominantly powered many devices requiring small energy demands. However, there …
Effective strategies for stabilizing sulfur for advanced lithium–sulfur batteries
O Ogoke, G Wu, X Wang, A Casimir, L Ma, T Wu… - Journal of Materials …, 2017 - osti.gov
Effective strategies for stabilizing sulfur for advanced lithium–sulfur batteries (Journal Article) |
OSTI.GOV skip to main content Sign In Create Account Show search Show menu OSTI.GOV …
OSTI.GOV skip to main content Sign In Create Account Show search Show menu OSTI.GOV …
[PDF][PDF] Effective strategies for stabilizing sulfur for advanced lithium–sulfur batteries
O Ogoke, G Wu, X Wang, A Casimir, L Ma, T Wub, J Lu - academia.edu
The lithium-ion battery, with a relatively small energy density of $250 W h kgÀ1, has
dominantly powered many devices requiring small energy demands. However, there …
dominantly powered many devices requiring small energy demands. However, there …
[PDF][PDF] Effective Strategies for Stabilizing Sulfur for Advanced Lithium-Sulfur Batteries
O Ogoke, G Wu, X Wang, A Casimir, L Ma, T Wu, J Lu - academia.edu
The lithium-ion battery, with a relatively small energy density of~ 250 Wh/kg, has dominantly
powered many devices requiring small energy demands. However, there remains a need for …
powered many devices requiring small energy demands. However, there remains a need for …
Effective strategies for stabilizing sulfur for advanced lithium–sulfur batteries
O Ogoke, X Wang, A Casimir, L Ma, T Wu, J Lu - Journal of Materials …, 2017 - osti.gov
The lithium-ion battery, with a relatively small energy density of similar to 250 W h kg (-1),
has dominantly powered many devices requiring small energy demands. However, there …
has dominantly powered many devices requiring small energy demands. However, there …