Coaxial SnO 2@TiO 2 nanotube hybrids: From robust assembly strategies to potential application in Li + storage

Xiaomeng Wu; Shichao Zhang; Lili Wang; Zhijia Du; Hua Fang; Yunhan Ling; Zhaohui Huang

doi:10.1039/c2jm30885a

Coaxial SnO ₂@TiO ₂ nanotube hybrids: From robust assembly strategies to potential application in Li ⁺ storage

Xiaomeng Wu
, Shichao Zhang
, Lili Wang
, Zhijia Du
, Hua Fang
, Yunhan Ling
, Zhaohui Huang

Research output: Contribution to journal › Article › peer-review

71 Scopus citations

Abstract

One of the major challenges in creating devices with core-shell nanotubular heterostructures has been the coating of conformal nanolayers inside the open volume of a nanoporous template. Here we show two facile assembly strategies developed, utilizing either electrochemical or solvothermal methodology, for the successful synthesis of novel SnO ₂@TiO ₂ coaxial nanotube arrays (SnO ₂@TNTs). Remarkably enhanced Li ⁺ ion storage performance of the prepared nanohybrids with favorable and well-defined tubular structures is demonstrated to be derived from the synergistic effect with improved electronic conductivity and dual lithium storage mechanism, which highlights their potential as a new alternative material for electrochemical energy storage.

Original language	English
Pages (from-to)	11151-11158
Number of pages	8
Journal	Journal of Materials Chemistry
Volume	22
Issue number	22
DOIs	https://doi.org/10.1039/c2jm30885a
State	Published - Jun 14 2012
Externally published	Yes

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abstract = "One of the major challenges in creating devices with core-shell nanotubular heterostructures has been the coating of conformal nanolayers inside the open volume of a nanoporous template. Here we show two facile assembly strategies developed, utilizing either electrochemical or solvothermal methodology, for the successful synthesis of novel SnO 2@TiO 2 coaxial nanotube arrays (SnO 2@TNTs). Remarkably enhanced Li + ion storage performance of the prepared nanohybrids with favorable and well-defined tubular structures is demonstrated to be derived from the synergistic effect with improved electronic conductivity and dual lithium storage mechanism, which highlights their potential as a new alternative material for electrochemical energy storage.",

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AU - Wu, Xiaomeng

AU - Zhang, Shichao

AU - Wang, Lili

AU - Du, Zhijia

AU - Fang, Hua

AU - Ling, Yunhan

AU - Huang, Zhaohui

PY - 2012/6/14

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AB - One of the major challenges in creating devices with core-shell nanotubular heterostructures has been the coating of conformal nanolayers inside the open volume of a nanoporous template. Here we show two facile assembly strategies developed, utilizing either electrochemical or solvothermal methodology, for the successful synthesis of novel SnO 2@TiO 2 coaxial nanotube arrays (SnO 2@TNTs). Remarkably enhanced Li + ion storage performance of the prepared nanohybrids with favorable and well-defined tubular structures is demonstrated to be derived from the synergistic effect with improved electronic conductivity and dual lithium storage mechanism, which highlights their potential as a new alternative material for electrochemical energy storage.

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ER -

Coaxial SnO ₂@TiO ₂ nanotube hybrids: From robust assembly strategies to potential application in Li ⁺ storage

Abstract

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