Nitrogen and sulfur co-doped hollow carbon nanofibers decorated with sulfur-doped anatase TiO2 (NS-HCNF@S-TiO2) has been synthesized through a simple hydrothermal reaction process followed by a calcination treatment, in which uniform sulfur-doped anatase TiO2 nanoparticles are firmly attached to the nitrogen and sulfur co-doped HCNF matrix. When the as-designed NS-HCNF@S-TiO2 composite is utilized as anode material for sodium and lithium storage, it delivers an enhanced electrochemical performance, which can be attributed to three synergic effects: (1) the core-shell and stable 3D network-like structures woven by nitrogen and sulfur co-doped HCNF in the NS-HCNF@S-TiO2 composite can accommodate stress from cycling and provide a beneficial conductive environment; (2) the doping of sulfur can lower the electronic resistance of TiO2 and increase the interlayer distance of carbon; (3) the uniform sulfur-doped anatase TiO2 attachment can further shorten the electron and ion pathways during electrochemical cycling. These findings indicate that the NS-HCNF@S-TiO2 composite has a great potential as TiO2-anode materials for sodium and lithium storage.

• 出版日期2017-2-25
• 单位中南大学