Carbon Nanowalls as Anode Materials with Improved Performance Using Carbon Nanofibers

Kim, Kangmin; Bon, Chris Yeajoon; Kim, Junghyun; Ko, Jang Myoun; Choi, Wonseok

doi:10.3390/nano13192622

Nanomaterials

2023

DOI: 10.3390/nano13192622

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Carbon Nanowalls as Anode Materials with Improved Performance Using Carbon Nanofibers

Kangmin Kim,

Chris Yeajoon Bon,

Junghyun Kim

et al.

Abstract: In this paper, a new synthesis of carbon nanofibers (CNFs)/carbon nanowalls (CNWs) was performed to improve the characteristics of anode materials of lithium-ion batteries by using the advantages offered by CNWs and CNFs. Among the carbon-based nanomaterials, CNWs provide low resistance and high specific surface area. CNFs have the advantage of being stretchable and durable. The CNWs were grown using a microwave plasma-enhanced chemical vapor deposition (PECVD) system with a mixture of methane (CH4) and hydrog… Show more

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2024

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Cited by 4 publications

References 32 publications

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A Highly Capacitive Graphene/Multiholed N‐CNTs Hybrid Evolved from Black Humate‐Co‐melamine Precursor

Zhao,

Cheng,

Song

et al. 2024

ChemNanoMat

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Black humic acid (BA) is a black mixture of organic macromolecules isolated from humic acid, which has a greater potential for graphene transformation than fulvic acid and ulmic acid because of more and larger aromatic units and higher molecular weights exceeding 5000 Dalton. Here, chemically bonded BA‐Co‐Melamine precursors are initially constructed using different BA fractions as substrate, Co2+ as bridge bond and melamine as ligand. A series of Graphene/N‐CNTs hybrids (GNCs) is eventually synthesized after the precursor pyrolysis. Resultantly, Fraction Ⅰ, separated at a pH value of 4.16, plays a significant role on constructing the BA‐Co‐Melamine precursor and further producing multiholed GNCs. Due to abundant CNTs, rich mesopores, moderate nitrogen incorporation and a certain graphitized assembly structure, the prepared GNC‐Ⅰ‐b has high capacitance performances. The assembled AC//GNC‐Ⅰ‐b supercapacitor has high specific capacitance (147 F g‐1 at 0.5 A g‐1), rate capability, cycling stability and energy density (16.8 Wh kg‐1 at 14.4 KW kg‐1). The 2032 coin‐type Li//GNC‐Ⅰ‐b half‐cell has high initial discharge capacity (759 mAh g‐1 at 0.03 A g‐1), initial Coulombic efficiency (81.8%), rate performance and cycling stability. Hence, the GNC is a favorable high‐performance carbon material hopefully applied as electrode materials of supercapacitors and LIBs.

show abstract

A Highly Capacitive Graphene/Multiholed N‐CNTs Hybrid Evolved from Black Humate‐Co‐melamine Precursor

Zhao,

Cheng,

Song

et al. 2024

ChemNanoMat

View full text Add to dashboard Cite

show abstract

Research progress in the preparation of lignin-based carbon nanofibers for supercapacitors using electrospinning technology: A review

Cao,

Zhu,

et al. 2024

International Journal of Biological Macromolecules

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Exploring lithium storage performance of two-dimensional Sb2Si2Te6-derived composites with carbon coating through polyacrylonitrile pyrolysis

Tang,

Liu,

Sun

et al. 2024

Journal of Alloys and Compounds

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Carbon Nanowalls as Anode Materials with Improved Performance Using Carbon Nanofibers

Cited by 4 publications

References 32 publications

A Highly Capacitive Graphene/Multiholed N‐CNTs Hybrid Evolved from Black Humate‐Co‐melamine Precursor

A Highly Capacitive Graphene/Multiholed N‐CNTs Hybrid Evolved from Black Humate‐Co‐melamine Precursor

Research progress in the preparation of lignin-based carbon nanofibers for supercapacitors using electrospinning technology: A review

Exploring lithium storage performance of two-dimensional Sb2Si2Te6-derived composites with carbon coating through polyacrylonitrile pyrolysis

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