Simin Jiang scite author profile

To develop high-power and fast energy storage devices, electrode materials with superior ionic and electronic transport properties should be developed. Herein, a novel composite electrode with TiO 2 nanotubes connected onto a conductive carbon nanofiber network is designed and realized through a general route. The carbon matrix is first synthesized using an electrospinning technique and heattreatment, and the embedded rutile TiO 2 nanoparticles are formed in situ as the starting materials for the hydrothermal reaction. After hydrothermal treatment, a three-dimensional (3D) porous architecture is developed. The mechanistic analysis demonstrates that the raw embedded rutile TiO 2 nanoparticles react with NaOH solution and go out around the carbon nanofiber matrix to form a well-connected 3D porous nanotube/nanofiber architecture. By using the as-prepared films as electrodes for lithium-ion batteries (LIBs) without the application of any additional conductive agent or binder, high initial capacity and excellent rate performance (214 mA h g À1 at 5 C rate, 180 mA h g À1 at 10 C rate, 138 mA h g À1 at 20 C rate and 112 mA h g À1 at 30 C rate) are achieved. Moreover, the electrode shows stable cycling performance, especially at a high rate of 30 C, without undergoing decay after 1000 cycles.

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A novel method to enhance rate performance of an Al-doped Li4Ti5O12 electrode by post-synthesis treatment in liquid formaldehyde at room temperature

Cai

Jiang

Xing

et al. 2012

J. Mater. Chem.

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Li4Ti5O12 electrodes operated under hurdle conditions and SiO2 incorporation effect

Jiang

Zhao

Chen

et al. 2013

Journal of Power Sources

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Simin Jiang

Nitrogen- and TiN-modified Li4Ti5O12: one-step synthesis and electrochemical performance optimization

Highly flexible self-standing film electrode composed of mesoporous rutile TiO2/C nanofibers for lithium-ion batteries

A 3D porous architecture composed of TiO2 nanotubes connected with a carbon nanofiber matrix for fast energy storage

A novel method to enhance rate performance of an Al-doped Li4Ti5O12 electrode by post-synthesis treatment in liquid formaldehyde at room temperature

Li4Ti5O12 electrodes operated under hurdle conditions and SiO2 incorporation effect

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