Epitaxial Growth of Branched α‐Fe2O3/SnO2 Nano‐Heterostructures with Improved Lithium‐Ion Battery Performance
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- 25 March 2011
- journal article
- research article
- Published by Wiley in Advanced Functional Materials
- Vol. 21 (13), 2439-2445
- https://doi.org/10.1002/adfm.201100088
Abstract
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This publication has 47 references indexed in Scilit:
- TiO2 Branched Nanostructure Electrodes Synthesized by Seeding Method for Dye-Sensitized Solar CellsChemistry of Materials, 2009
- Potential applications of hierarchical branching nanowires in solar energy conversionEnergy & Environmental Science, 2009
- Formation of chiral branched nanowires by the Eshelby TwistNature Nanotechnology, 2008
- Dislocation-Driven Nanowire Growth and Eshelby TwistScience, 2008
- Novel Nanocrystal Heterostructures: Crystallographic-Oriented Growth of SnO2 Nanorods onto α-Fe2O3 NanohexahedronCrystal Growth & Design, 2008
- Design and Fabrication of Rocketlike Tetrapodal CdS Nanorods by Seed-Epitaxial Metal−Organic Chemical Vapor DepositionCrystal Growth & Design, 2007
- Hybrid Solar Cells with Prescribed Nanoscale Morphologies Based on Hyperbranched Semiconductor NanocrystalsNano Letters, 2006
- Synthetic Architectures of TiO2/H2Ti5O11·H2O, ZnO/H2Ti5O11·H2O, ZnO/TiO2/H2Ti5O11·H2O, and ZnO/TiO2 NanocompositesJournal of the American Chemical Society, 2004
- Synthesis of branched 'nanotrees' by controlled seeding of multiple branching eventsNature Materials, 2004
- Epitaxial core–shell and core–multishell nanowire heterostructuresNature, 2002