Hongwei Yue scite author profile

Germanium is a highly promising anode material for lithium-ion batteries as a consequence of its large theoretical specific capacity, good electrical conductivity, and fast lithium ion diffusivity. In this work, Co3O4 nanowire array fabricated on nickel foam was designed as a nanostructured current collector for Ge anode. By limiting the voltage cutoff window in an appropriate range, the obtained Ge anode exhibits excellent lithium storage performance in half- and full-cells, which can be mainly attributed to the designed nanostructured current collector with good conductivity, enough buffering space for the volume change, and shortened ionic transport length. More importantly, the assembled Ge/LiCoO2 full-cell shows a high energy density of 475 Wh/kg and a high power density of 6587 W/kg. A high capacity of 1184 mA h g(-1) for Ge anode was maintained at a current density of 5000 mA g(-1) after 150 cycles.

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Nitrogen-doped carbon nanofibers as anode material for high-capacity and binder-free lithium ion battery

Yue

Yang

et al. 2014

Materials Letters

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Facile Synthesis of Porous MnO Microspheres for High‐Performance Lithium‐Ion Batteries

Shang

et al. 2014

Part & Part Syst Charact

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Manganese oxide is a highly promising anode material of lithium‐ion batteries (LIBs) for its low insertion voltage and high reversible capacity. Porous MnO microspheres are prepared by a facile method in this work. As an anode material of LIB, it can deliver a high reversible capacity up to 1234.2 mA h g−1 after 300 cycles at 0.2 C, and a capacity of 690.0 mA h g−1 in the 500th cycle at 2 C. The capacity increase with cycling can be attributed to the growth of reversible polymer/gel‐like film, and the better cycling stability and the superior rate performance can be attributed to the featured structure of the microspheres composed of nanoparticles with a short transport path for lithium ions, a large specific surface, and material/electrolyte contact area. The results suggest that the porous MnO microspheres can function as a promising anode material for high‐performance LIBs.

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Ultra-thick porous films of graphene-encapsulated silicon nanoparticles as flexible anodes for lithium ion batteries

Yue

Wang

Yang

et al. 2015

Electrochimica Acta

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Facile preparation of Mn₃O₄-coated carbon nanofibers on copper foam as a high-capacity and long-life anode for lithium-ion batteries

Yue

Yang

et al. 2014

J. Mater. Chem. A

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Hongwei Yue

Germanium Anode with Excellent Lithium Storage Performance in a Germanium/Lithium–Cobalt Oxide Lithium-Ion Battery

Nitrogen-doped carbon nanofibers as anode material for high-capacity and binder-free lithium ion battery

Facile Synthesis of Porous MnO Microspheres for High‐Performance Lithium‐Ion Batteries

Ultra-thick porous films of graphene-encapsulated silicon nanoparticles as flexible anodes for lithium ion batteries

Facile preparation of Mn₃O₄-coated carbon nanofibers on copper foam as a high-capacity and long-life anode for lithium-ion batteries

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Hongwei Yue

Germanium Anode with Excellent Lithium Storage Performance in a Germanium/Lithium–Cobalt Oxide Lithium-Ion Battery

Nitrogen-doped carbon nanofibers as anode material for high-capacity and binder-free lithium ion battery

Facile Synthesis of Porous MnO Microspheres for High‐Performance Lithium‐Ion Batteries

Ultra-thick porous films of graphene-encapsulated silicon nanoparticles as flexible anodes for lithium ion batteries

Facile preparation of Mn3O4-coated carbon nanofibers on copper foam as a high-capacity and long-life anode for lithium-ion batteries

Contact Info

Product

Resources

About

Facile preparation of Mn₃O₄-coated carbon nanofibers on copper foam as a high-capacity and long-life anode for lithium-ion batteries