Mesoporous and microsrystal T-Nb2O5 was synthesized by a solvent evaporation induced self-assembly method (EISA) using nano-crystalline cellulose rod-like structure as three-dimensional cross linked s
The simple synthesis of nanostructures with high charge-carrier transport is an important aim for the applications in supercapacitors [1-5].Here,we report a novel hybrid electrode material with mesopo
Lithium-sulfur batteries hold great promise for serving as next generation high energy density batteries.However,the shuttle of polysulfide induces rapid capacity degradation and poor cycling stabilit
In recent years,rechargeable lithium-ion battery has occupied the dominant position in the fields of smallmobile consumer electronics products,and also shown prospects remarkable of electric vehicles
Lithium-sulfur (Li-S) batteries have recently been considered as the one of the prospective candidates for high performance energy storage technologies in terms of their high specific capacity (1675 m
As the conventional Li-ion batteries are approaching its theoretical limits.Li-S batteries have attractedmore and more attention for their high energy density(2600 Wh kg-1).Carbon materials with vario
Magnesium alloy has great potential in the energy field because of its high electronegativity,chemical activity and high energy density.Usually the anode material is MnO2.In this paper,we have studied
As TiN demonstrates superior electrocatalytic activity combined with high electrical conductivity and excellent chemical resistance to acid/alkali,nanostructured TiN materials have been considered as