Mohd Faiz Hassan scite author profile

This work introduces an effective, inexpensive, and large‐scale production approach to the synthesis of a carbon coated, high grain boundary density, dual phase Li4Ti5O12‐TiO2 nanocomposite anode material for use in rechargeable lithium‐ion batteries. The microstructure and morphology of the Li4Ti5O12‐TiO2‐C product were characterized systematically. The Li4Ti5O12‐TiO2‐C nanocomposite electrode yielded good electrochemical performance in terms of high capacity (166 mAh g−1 at a current density of 0.5 C), good cycling stability, and excellent rate capability (110 mAh g−1 at a current density of 10 C up to 100 cycles). The likely contributing factors to the excellent electrochemical performance of the Li4Ti5O12‐TiO2‐C nanocomposite could be related to the improved morphology, including the presence of high grain boundary density among the nanoparticles, carbon layering on each nanocrystal, and grain boundary interface areas embedded in a carbon matrix, where electronic transport properties were tuned by interfacial design and by varying the spacing of interfaces down to the nanoscale regime, in which the grain boundary interface embedded carbon matrix can store electrolyte and allows more channels for the Li+ ion insertion/extraction reaction. This research suggests that carbon‐coated dual phase Li4Ti5O12‐TiO2 nanocomposites could be suitable for use as a high rate performance anode material for lithium‐ion batteries.

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Carbon-coated MoO3 nanobelts as anode materials for lithium-ion batteries

Hassan

Guo

Chen

et al. 2010

Journal of Power Sources

191

115

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Ultra-fine porous SnO2 nanopowder prepared via a molten salt process: a highly efficient anode material for lithium-ion batteries

et al. 2009

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Mohd Faiz Hassan

Amorphous Carbon Coated High Grain Boundary Density Dual Phase Li₄Ti₅O₁₂‐TiO₂: A Nanocomposite Anode Material for Li‐Ion Batteries

Carbon-coated MoO3 nanobelts as anode materials for lithium-ion batteries

Ultra-fine porous SnO2 nanopowder prepared via a molten salt process: a highly efficient anode material for lithium-ion batteries

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Mohd Faiz Hassan

Amorphous Carbon Coated High Grain Boundary Density Dual Phase Li4Ti5O12‐TiO2: A Nanocomposite Anode Material for Li‐Ion Batteries

Carbon-coated MoO3 nanobelts as anode materials for lithium-ion batteries

Ultra-fine porous SnO2 nanopowder prepared via a molten salt process: a highly efficient anode material for lithium-ion batteries

Contact Info

Product

Resources

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Amorphous Carbon Coated High Grain Boundary Density Dual Phase Li₄Ti₅O₁₂‐TiO₂: A Nanocomposite Anode Material for Li‐Ion Batteries