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Literature DB >> 28994244

Nitrogen-Doped Carbon Nanotubes Derived from Metal-Organic Frameworks for Potassium-Ion Battery Anodes.

Peixun Xiong¹, Xinxin Zhao¹, Yunhua Xu^1,2.

Abstract

To tackle the issue of the poor rate capability of graphite anodes for potassium-ion batteries (KIBs), nitrogen-doped carbon nanotubes (NCNTs) with an edge-open layer-alignment structure were synthesized using a simple and scalable approach of pyrolyzing cobalt-containing metal-organic frameworks. The unique structure enables a facile and fast intercalation of K ions. As anodes of KIBs, the NCNTs demonstrated an improved rate capability by a high capacity retention of 102 mA h g-1 at a high current density of 2000 mA g-1 and a good stability without evident capacity loss over 500 cycles at 2000 mA g-1 . Our findings can help to develop highperformance anode materials for potassium-ion batteries as large-scale and low-cost energy-storage systems.

Entities: Chemical

Keywords: carbon nanotubes; graphite intercalation; metal-organic frameworks; nitrogen-doped; potassium-ion battery

Mesh：

Substances：

Year: 2017 PMID： 28994244 DOI： 10.1002/cssc.201701759

Source DB: PubMed Journal: ChemSusChem ISSN： 1864-5631 Impact factor: 8.928

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Cited

5 in total

1. Rapid synthesis of layered K _x MnO₂ cathodes from metal-organic frameworks for potassium-ion batteries.

Authors: Ang Li; Changfeng Li; Peixun Xiong; Jinfeng Zhang; Dongling Geng; Yunhua Xu
Journal: Chem Sci Date: 2022-06-06 Impact factor: 9.969

2. N-doped pinecone-based carbon with a hierarchical porous pie-like structure: a long-cycle-life anode material for potassium-ion batteries.

Authors: Jian-Fang Lu; Ke-Chun Li; Xiao-Yan Lv; Fu-Hou Lei; Yan Mi; Yan-Xuan Wen
Journal: RSC Adv Date: 2022-07-13 Impact factor: 4.036

Nitrogen-Doped Carbon Nanotubes Derived from Metal-Organic Frameworks for Potassium-Ion Battery Anodes.

1. Rapid synthesis of layered K _x MnO₂ cathodes from metal-organic frameworks for potassium-ion batteries.

2. N-doped pinecone-based carbon with a hierarchical porous pie-like structure: a long-cycle-life anode material for potassium-ion batteries.

3. Ultra-Stable Potassium Ion Storage of Nitrogen-Doped Carbon Nanofiber Derived from Bacterial Cellulose.

4. UIO-66-NH₂-derived mesoporous carbon used as a high-performance anode for the potassium-ion battery.

Review 5. Advanced Anode Materials of Potassium Ion Batteries: from Zero Dimension to Three Dimensions.

Nitrogen-Doped Carbon Nanotubes Derived from Metal-Organic Frameworks for Potassium-Ion Battery Anodes.

1. Rapid synthesis of layered K x MnO2 cathodes from metal-organic frameworks for potassium-ion batteries.

2. N-doped pinecone-based carbon with a hierarchical porous pie-like structure: a long-cycle-life anode material for potassium-ion batteries.

3. Ultra-Stable Potassium Ion Storage of Nitrogen-Doped Carbon Nanofiber Derived from Bacterial Cellulose.

4. UIO-66-NH2-derived mesoporous carbon used as a high-performance anode for the potassium-ion battery.

Review 5. Advanced Anode Materials of Potassium Ion Batteries: from Zero Dimension to Three Dimensions.

1. Rapid synthesis of layered K _x MnO₂ cathodes from metal-organic frameworks for potassium-ion batteries.

4. UIO-66-NH₂-derived mesoporous carbon used as a high-performance anode for the potassium-ion battery.