Yuhai Hu scite author profile

How to tune graphene nanosheets (GNSs) with various morphologies has been a significant challenge for lithium ion batteries (LIBs). In this study, three types of GNSs with varying size, edge sites, defects and layer numbers have been successfully achieved. It was demonstrated that controlling GNS morphology and microstructure has important effects on its cyclic performance and rate capability in LIBs. Diminished GNS layer number, decreased size, increased edge sites and increased defects in the GNS anode can be highly beneficial to lithium storage and result in increased electrochemical performance. Interestingly, GNSs treated with a hydrothermal approach delivered a high reversible discharge capacity of 1348 mA h g(-1). This study demonstrates that the controlled design of high performance GNS anodes is an important concept in LIB applications.

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Surface science studies of selective catalytic reduction of NO: Progress in the last ten years

Griffiths

Norton

2009

Surface Science

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Free-standing graphene–carbon nanotube hybrid papers used as current collector and binder free anodes for lithium ion batteries

Wang

et al. 2013

Journal of Power Sources

120

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Novel approach toward a binder-free and current collector-free anode configuration: highly flexible nanoporous carbon nanotube electrodes with strong mechanical strength harvesting improved lithium storage

Yang

et al. 2012

J. Mater. Chem.

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Yuhai Hu

Significant impact on cathode performance of lithium-ion batteries by precisely controlled metal oxide nanocoatings via atomic layer deposition

Flexible rechargeable lithium ion batteries: advances and challenges in materials and process technologies

LiFePO4–graphene as a superior cathode material for rechargeable lithium batteries: impact of stacked graphene and unfolded graphene

ACP risk grade: a simple mortality index for patients with confirmed or suspected severe acute respiratory syndrome coronavirus 2 disease (COVID-19) during the early stage of outbreak in Wuhan, China

Structurally tailored graphene nanosheets as lithium ion battery anodes: an insight to yield exceptionally high lithium storage performance

Surface science studies of selective catalytic reduction of NO: Progress in the last ten years

Free-standing graphene–carbon nanotube hybrid papers used as current collector and binder free anodes for lithium ion batteries

Novel approach toward a binder-free and current collector-free anode configuration: highly flexible nanoporous carbon nanotube electrodes with strong mechanical strength harvesting improved lithium storage

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