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Literature DB >> 23703319

Cu2Se with facile synthesis as a cathode material for rechargeable sodium batteries.

Abstract

A Cu2Se electrode on a copper grid substrate has been directly fabricated by a facile post-selenized method and tested as a positive material for sodium ion batteries. Cu2Se exhibits large reversible capacities (about 250 mA h g(-1)), good cyclic stabilities and low polarization. These results indicate that Cu2Se is a promising candidate as a cathode material for sodium ion batteries.

Entities: Chemical

Year: 2013 PMID： 23703319 DOI： 10.1039/c3cc41934g

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

5 in total

1. Na-ion Storage Performances of FeSe(x) and Fe2O3 Hollow Nanoparticles-Decorated Reduced Graphene Oxide Balls prepared by Nanoscale Kirkendall Diffusion Process.

Authors: Gi Dae Park; Jung Sang Cho; Jung-Kul Lee; Yun Chan Kang
Journal: Sci Rep Date: 2016-02-29 Impact factor: 4.379

5. Metal-Organic Framework-Derived NiSe Embedded into a Porous Multi-Heteroatom Self-Doped Carbon Matrix as a Promising Anode for Sodium-Ion Battery.

Authors: Xiaoyan Shi; Lujun Fang; Handong Peng; Xizhan Deng; Zhipeng Sun
Journal: Nanomaterials (Basel) Date: 2022-09-26 Impact factor: 5.719

5 in total

Cu2Se with facile synthesis as a cathode material for rechargeable sodium batteries.

1. Na-ion Storage Performances of FeSe(x) and Fe2O3 Hollow Nanoparticles-Decorated Reduced Graphene Oxide Balls prepared by Nanoscale Kirkendall Diffusion Process.

2. Structural and compositional control in copper selenide nanocrystals for light-induced self-repairable electrodes.

3. Cu₂Se Nanoparticles Encapsulated by Nitrogen-Doped Carbon Nanofibers for Efficient Sodium Storage.

4. A facile synthesis of CuSe nanosheets for high-performance sodium-ion hybrid capacitors.

5. Metal-Organic Framework-Derived NiSe Embedded into a Porous Multi-Heteroatom Self-Doped Carbon Matrix as a Promising Anode for Sodium-Ion Battery.

Cu2Se with facile synthesis as a cathode material for rechargeable sodium batteries.

1. Na-ion Storage Performances of FeSe(x) and Fe2O3 Hollow Nanoparticles-Decorated Reduced Graphene Oxide Balls prepared by Nanoscale Kirkendall Diffusion Process.

2. Structural and compositional control in copper selenide nanocrystals for light-induced self-repairable electrodes.

3. Cu2Se Nanoparticles Encapsulated by Nitrogen-Doped Carbon Nanofibers for Efficient Sodium Storage.

4. A facile synthesis of CuSe nanosheets for high-performance sodium-ion hybrid capacitors.

5. Metal-Organic Framework-Derived NiSe Embedded into a Porous Multi-Heteroatom Self-Doped Carbon Matrix as a Promising Anode for Sodium-Ion Battery.

3. Cu₂Se Nanoparticles Encapsulated by Nitrogen-Doped Carbon Nanofibers for Efficient Sodium Storage.