Voltage-controlled synthesis of Cu–Li2O@Si core–shell nanorod arrays as high-performance anodes for lithium-ion batteries
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Title
Voltage-controlled synthesis of Cu–Li2O@Si core–shell nanorod arrays as high-performance anodes for lithium-ion batteries
Authors
Keywords
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Journal
Journal of Materials Chemistry A
Volume 2, Issue 48, Pages 20510-20514
Publisher
Royal Society of Chemistry (RSC)
Online
2014-10-31
DOI
10.1039/c4ta05098c
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- (2012) Jung-Keun Yoo et al. ADVANCED MATERIALS
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- (2012) Y.Y. Tang et al. ELECTROCHIMICA ACTA
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- (2012) Chenglong Zhao et al. JOURNAL OF MATERIALS CHEMISTRY
- Cu–Si1−xGex core–shell nanowire arrays as three-dimensional electrodes for high-rate capability lithium-ion batteries
- (2012) Jiazheng Wang et al. JOURNAL OF POWER SOURCES
- Conductive Rigid Skeleton Supported Silicon as High-Performance Li-Ion Battery Anodes
- (2012) Xilin Chen et al. NANO LETTERS
- Vertically ordered Ni3Si2/Si nanorod arrays as anode materials for high-performance Li-ion batteries
- (2012) Xing Fan et al. Nanoscale
- High-Performance Macroporous Bulk Silicon Anodes Synthesized by Template-Free Chemical Etching
- (2012) Byoung Man Bang et al. Advanced Energy Materials
- A high-performance lithium-ion battery anode based on the core–shell heterostructure of silicon-coated vertically aligned carbon nanofibers
- (2012) Steven A. Klankowski et al. Journal of Materials Chemistry A
- Nanostructured Reduced Graphene Oxide/Fe2O3 Composite As a High-Performance Anode Material for Lithium Ion Batteries
- (2011) Xianjun Zhu et al. ACS Nano
- Cu-Si Nanocable Arrays as High-Rate Anode Materials for Lithium-Ion Batteries
- (2011) Fei-Fei Cao et al. ADVANCED MATERIALS
- Ni3Si2–Si nanowires on Ni foam as a high-performance anode of Li-ion batteries
- (2011) Ning Du et al. ELECTROCHEMISTRY COMMUNICATIONS
- Facile fabrication of a nanoporous silicon electrode with superior stability for lithium ion batteries
- (2011) Chunyu Du et al. Energy & Environmental Science
- Scalable approach to multi-dimensional bulk Si anodes via metal-assisted chemical etching
- (2011) Byoung Man Bang et al. Energy & Environmental Science
- Cu–Ge core–shell nanowire arrays as three-dimensional electrodes for high-rate capability lithium-ion batteries
- (2011) Jiazheng Wang et al. JOURNAL OF MATERIALS CHEMISTRY
- Self-aligned Cu–Si core–shell nanowire array as a high-performance anode for Li-ion batteries
- (2011) Jun Qu et al. JOURNAL OF POWER SOURCES
- Interconnected Silicon Hollow Nanospheres for Lithium-Ion Battery Anodes with Long Cycle Life
- (2011) Yan Yao et al. NANO LETTERS
- Electrospun Core–Shell Fibers for Robust Silicon Nanoparticle-Based Lithium Ion Battery Anodes
- (2011) Tae Hoon Hwang et al. NANO LETTERS
- Novel Three-Dimensional Mesoporous Silicon for High Power Lithium-Ion Battery Anode Material
- (2011) Haiping Jia et al. Advanced Energy Materials
- Virus-Enabled Silicon Anode for Lithium-Ion Batteries
- (2010) Xilin Chen et al. ACS Nano
- Nickel Nanocone-Array Supported Silicon Anode for High-Performance Lithium-Ion Batteries
- (2010) Shichao Zhang et al. ADVANCED MATERIALS
- Reversible Storage of Lithium in Silver-Coated Three-Dimensional Macroporous Silicon
- (2010) Yan Yu et al. ADVANCED MATERIALS
- Stress generation in silicon particles during lithium insertion
- (2010) Stephanie Golmon et al. APPLIED PHYSICS LETTERS
- A polymer scaffold binder structure for high capacity silicon anode of lithium-ion battery
- (2010) Juchen Guo et al. CHEMICAL COMMUNICATIONS
- Nanostructured silicon for high capacity lithium battery anodes
- (2010) Jeannine R. Szczech et al. Energy & Environmental Science
- Si/TiSi2Heteronanostructures as High-Capacity Anode Material for Li Ion Batteries
- (2010) Sa Zhou et al. NANO LETTERS
- Arrays of Sealed Silicon Nanotubes As Anodes for Lithium Ion Batteries
- (2010) Taeseup Song et al. NANO LETTERS
- Silicon Inverse-Opal-Based Macroporous Materials as Negative Electrodes for Lithium Ion Batteries
- (2009) Alexei Esmanski et al. ADVANCED FUNCTIONAL MATERIALS
- One-step fabrication of CuO nanoribbons array electrode and its excellent lithium storage performance
- (2009) Fu-Sheng Ke et al. ELECTROCHIMICA ACTA
- Evaluation of Si/carbon composite nanofiber-based insertion anodes for new-generation rechargeable lithium-ion batteries
- (2009) Liwen Ji et al. Energy & Environmental Science
- Impedance Analysis of Silicon Nanowire Lithium Ion Battery Anodes
- (2009) Riccardo Ruffo et al. Journal of Physical Chemistry C
- Carbon−Silicon Core−Shell Nanowires as High Capacity Electrode for Lithium Ion Batteries
- (2009) Li-Feng Cui et al. NANO LETTERS
- Three-Dimensional Porous Silicon Particles for Use in High-Performance Lithium Secondary Batteries
- (2008) Hyunjung Kim et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Silicon nanowires for rechargeable lithium-ion battery anodes
- (2008) Kuiqing Peng et al. APPLIED PHYSICS LETTERS
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- (2008) Li-Feng Cui et al. NANO LETTERS
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