ACS applied materials & interfaces, volume 11, issue 13, pages 12554-12561

Lotus Seedpod-Derived Hard Carbon with Hierarchical Porous Structure as Stable Anode for Sodium-Ion Batteries

Feng Wu ^{1, 2}

Minghao Zhang ¹

Ying Bai ¹

Xinran Wang ¹

Ruiqi Dong ¹

Chuan Wu ^{1, 2}

Hide authors affiliations Show authors affiliations: 2 affiliations

Beijing Key Laboratory of Environmental Science and Engineering, School of Materials Science and Engineering, Beijing Institute of Technology, Beijing 100081, P. R. China |

Collaborative Innovation Center of Electric Vehicles in Beijing, Beijing 100081, P. R. China |

Publication type: Journal Article

Publication date: 2019-03-15

American Chemical Society (ACS)

Journal: ACS applied materials & interfaces

Quartile SCImago

Quartile WOS

Impact factor: 9.5

ISSN: 19448244, 19448252

DOI: 10.1021/acsami.9b01419

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General Materials Science

Abstract

Hard carbon material is one of the candidates with great promise as anode-active material for sodium-ion batteries (SIBs). Here, new types of biomass-derived hard carbons were obtained via one-step carbonization of lotus seedpods at 1000-1400 °C, respectively. The control of carbonization temperature proved to be significant in controlling the lattice characterization of lotus seedpod-derived hard carbon. Higher temperature generally promoted the lattice graphitization and thus generated a more narrowed d-interlayer space with limited pore volume. The hard carbon pyrolyzed at 1200 °C achieved an optimized reversible capacity of 328.8 mAh g-1 and exhibited a remarkable capacity retention of 90% after 200 cycles. In addition, such a biomass-derived hard carbon presented improved cyclic stability and rate performance, revealing capacity of 330.6, 288.9, 216.9, 116.5, and 78.3 mAh g-1 at 50, 100, 200, 500, and 1000 mA g-1, respectively. Intrinsically, high pyrolysis temperature (1400 °C) gave rise to more narrowed carbon lattice and reduced pore volume and, thus, failed to accommodate sodium ions either from the intercalation into lattice or the ion adsorption onto the pore surface. Such combined advantages of lotus seedpod-derived hard carbon, including the abundance, sufficiently adequate reversible capacity, and prominent cycling and rate property allowed for its large-scale application as promising anode material for SIBs.

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Citations by journals

	1 2 3 4 5 6 7
Advanced Energy Materials	Advanced Energy Materials, 7, 4.9% Advanced Energy Materials 7 publications, 4.9%
Journal of Materials Chemistry A	Journal of Materials Chemistry A, 7, 4.9% Journal of Materials Chemistry A 7 publications, 4.9%
ACS applied materials & interfaces	ACS applied materials & interfaces, 6, 4.2% ACS applied materials & interfaces 6 publications, 4.2%
Journal of Energy Chemistry	Journal of Energy Chemistry, 5, 3.5% Journal of Energy Chemistry 5 publications, 3.5%
Electrochimica Acta	Electrochimica Acta, 5, 3.5% Electrochimica Acta 5 publications, 3.5%
Carbon	Carbon, 5, 3.5% Carbon 5 publications, 3.5%
Journal of Power Sources	Journal of Power Sources, 4, 2.8% Journal of Power Sources 4 publications, 2.8%
Journal of Electroanalytical Chemistry	Journal of Electroanalytical Chemistry, 4, 2.8% Journal of Electroanalytical Chemistry 4 publications, 2.8%
Advanced Functional Materials	Advanced Functional Materials, 4, 2.8% Advanced Functional Materials 4 publications, 2.8%
Energy Technology	Energy Technology, 3, 2.1% Energy Technology 3 publications, 2.1%
Rare Metals	Rare Metals, 3, 2.1% Rare Metals 3 publications, 2.1%
Journal of Colloid and Interface Science	Journal of Colloid and Interface Science, 3, 2.1% Journal of Colloid and Interface Science 3 publications, 2.1%
Journal of Energy Storage	Journal of Energy Storage, 3, 2.1% Journal of Energy Storage 3 publications, 2.1%
Diamond and Related Materials	Diamond and Related Materials, 3, 2.1% Diamond and Related Materials 3 publications, 2.1%
Chemical Engineering Journal	Chemical Engineering Journal, 3, 2.1% Chemical Engineering Journal 3 publications, 2.1%
Energy & Fuels	Energy & Fuels, 3, 2.1% Energy & Fuels 3 publications, 2.1%
ACS Applied Energy Materials	ACS Applied Energy Materials, 3, 2.1% ACS Applied Energy Materials 3 publications, 2.1%
Chemical Society Reviews	Chemical Society Reviews, 3, 2.1% Chemical Society Reviews 3 publications, 2.1%
Batteries	Batteries, 2, 1.4% Batteries 2 publications, 1.4%
Journal of Physics and Chemistry of Solids	Journal of Physics and Chemistry of Solids, 2, 1.4% Journal of Physics and Chemistry of Solids 2 publications, 1.4%
Journal of Alloys and Compounds	Journal of Alloys and Compounds, 2, 1.4% Journal of Alloys and Compounds 2 publications, 1.4%
Nano Energy	Nano Energy, 2, 1.4% Nano Energy 2 publications, 1.4%
ChemSusChem	ChemSusChem, 2, 1.4% ChemSusChem 2 publications, 1.4%
Langmuir	Langmuir, 2, 1.4% Langmuir 2 publications, 1.4%
Energy Storage Materials	Energy Storage Materials, 2, 1.4% Energy Storage Materials 2 publications, 1.4%
Energy Materials	Energy Materials, 2, 1.4% Energy Materials 2 publications, 1.4%
Small Methods	Small Methods, 1, 0.7% Small Methods 1 publication, 0.7%
Processes	Processes, 1, 0.7% Processes 1 publication, 0.7%
Materials	Materials, 1, 0.7% Materials 1 publication, 0.7%
Nanomaterials	Nanomaterials, 1, 0.7% Nanomaterials 1 publication, 0.7%
	1 2 3 4 5 6 7

Citations by publishers

	10 20 30 40 50
Elsevier	Elsevier, 50, 34.97% Elsevier 50 publications, 34.97%
Wiley	Wiley, 28, 19.58% Wiley 28 publications, 19.58%
American Chemical Society (ACS)	American Chemical Society (ACS), 18, 12.59% American Chemical Society (ACS) 18 publications, 12.59%
Royal Society of Chemistry (RSC)	Royal Society of Chemistry (RSC), 17, 11.89% Royal Society of Chemistry (RSC) 17 publications, 11.89%
Springer Nature	Springer Nature, 8, 5.59% Springer Nature 8 publications, 5.59%
Multidisciplinary Digital Publishing Institute (MDPI)	Multidisciplinary Digital Publishing Institute (MDPI), 7, 4.9% Multidisciplinary Digital Publishing Institute (MDPI) 7 publications, 4.9%
Nonferrous Metals Society of China	Nonferrous Metals Society of China, 3, 2.1% Nonferrous Metals Society of China 3 publications, 2.1%
IOP Publishing	IOP Publishing, 2, 1.4% IOP Publishing 2 publications, 1.4%
OAE Publishing Inc.	OAE Publishing Inc., 2, 1.4% OAE Publishing Inc. 2 publications, 1.4%
Frontiers Media S.A.	Frontiers Media S.A., 1, 0.7% Frontiers Media S.A. 1 publication, 0.7%
Materials Research Society	Materials Research Society, 1, 0.7% Materials Research Society 1 publication, 0.7%
KeAi Communications Co.	KeAi Communications Co., 1, 0.7% KeAi Communications Co. 1 publication, 0.7%
Taylor & Francis	Taylor & Francis, 1, 0.7% Taylor & Francis 1 publication, 0.7%
American Institute of Physics (AIP)	American Institute of Physics (AIP), 1, 0.7% American Institute of Physics (AIP) 1 publication, 0.7%
The Electrochemical Society	The Electrochemical Society, 1, 0.7% The Electrochemical Society 1 publication, 0.7%
Autonomous Non-profit Organization Editorial Board of the journal Uspekhi Khimii	Autonomous Non-profit Organization Editorial Board of the journal Uspekhi Khimii, 1, 0.7% Autonomous Non-profit Organization Editorial Board of the journal Uspekhi Khimii 1 publication, 0.7%
Lviv Polytechnic National University	Lviv Polytechnic National University, 1, 0.7% Lviv Polytechnic National University 1 publication, 0.7%
	10 20 30 40 50

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Wu F. et al. Lotus Seedpod-Derived Hard Carbon with Hierarchical Porous Structure as Stable Anode for Sodium-Ion Batteries // ACS applied materials & interfaces. 2019. Vol. 11. No. 13. pp. 12554-12561.

GOST all authors (up to 50) Copy

Wu F., Zhang M., Bai Y., Wang X., Dong R., Wu C. Lotus Seedpod-Derived Hard Carbon with Hierarchical Porous Structure as Stable Anode for Sodium-Ion Batteries // ACS applied materials & interfaces. 2019. Vol. 11. No. 13. pp. 12554-12561.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1021/acsami.9b01419

UR - https://doi.org/10.1021/acsami.9b01419

TI - Lotus Seedpod-Derived Hard Carbon with Hierarchical Porous Structure as Stable Anode for Sodium-Ion Batteries

T2 - ACS applied materials & interfaces

AU - Zhang, Minghao

AU - Dong, Ruiqi

AU - Bai, Ying

AU - Wu, Chuan

AU - Wu, Feng

AU - Wang, Xinran

PY - 2019

DA - 2019/03/15 00:00:00

PB - American Chemical Society (ACS)

SP - 12554-12561

IS - 13

VL - 11

SN - 1944-8244

SN - 1944-8252

ER -

BibTex |

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BibTex Copy

@article{2019_Wu,

author = {Minghao Zhang and Ruiqi Dong and Ying Bai and Chuan Wu and Feng Wu and Xinran Wang},

title = {Lotus Seedpod-Derived Hard Carbon with Hierarchical Porous Structure as Stable Anode for Sodium-Ion Batteries},

journal = {ACS applied materials & interfaces},

year = {2019},

volume = {11},

publisher = {American Chemical Society (ACS)},

month = {mar},

url = {https://doi.org/10.1021/acsami.9b01419},

number = {13},

pages = {12554--12561},

doi = {10.1021/acsami.9b01419}

}

MLA

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MLA Copy

Wu, Feng, et al. “Lotus Seedpod-Derived Hard Carbon with Hierarchical Porous Structure as Stable Anode for Sodium-Ion Batteries.” ACS applied materials & interfaces, vol. 11, no. 13, Mar. 2019, pp. 12554-12561. https://doi.org/10.1021/acsami.9b01419.

Found error?

Publisher

American Chemical Society (ACS)

Journal

ACS applied materials & interfaces

Quartile SCImago

Quartile WOS

Impact factor

9.5

ISSN

19448244 (Print)
19448252 (Electronic)