том 11 издание 18 страницы 2003400

Polycrystalline and Single Crystalline NCM Cathode Materials—Quantifying Particle Cracking, Active Surface Area, and Lithium Diffusion

Тип публикацииJournal Article
Дата публикации2021-03-24
SCImago Q1
Tоп 10% SCImago
WOS Q1
БС1
SJR7.677
CiteScore39.9
Impact factor25.5
ISSN16146832, 16146840
General Materials Science
Renewable Energy, Sustainability and the Environment
Краткое описание

Representatives of the LixNi1−yzCoyMnzO2 (NCM) family of cathode active materials (CAMs) with high nickel content are becoming the CAM of choice for high performance lithium‐ion batteries. In addition to high specific capacities, these layered oxides offer high specific energy, power, and long cycle life. Recently, the development of single crystalline particles of NCM has enabled even longer lifetimes due to achieving higher Coulomb efficiencies. In this work, the performance of NCM materials with different particle size and morphology is explored in terms of key parameters such as the charge‐transfer resistance and the chemical diffusion coefficient of lithium. Cracking of secondary particles leads to liquid electrolyte infiltration in the CAM, lowering the charge‐transfer resistance and increasing the apparent diffusion coefficient by more than one order of magnitude. In contrast, these effects are not observed with single‐crystalline NCM, which is mostly free of cracks after cycling. Consequently, severe kinetic limitations are observed when cycling large “uncracked” secondary particles at low potential and capacity. These results demonstrate that cracking of polycrystalline particles of NCM is not solely detrimental but helps to achieve high reversible capacities and rate capability. Thus, optimization of CAMs size and morphology is decisive to achieve good rate capability with high‐nickel NCMs.

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ГОСТ |
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Trevisanello E. et al. Polycrystalline and Single Crystalline NCM Cathode Materials—Quantifying Particle Cracking, Active Surface Area, and Lithium Diffusion // Advanced Energy Materials. 2021. Vol. 11. No. 18. p. 2003400.
ГОСТ со всеми авторами (до 50) Скопировать
Trevisanello E., Rueß R., Conforto G., Richter F. H., Janek J. Polycrystalline and Single Crystalline NCM Cathode Materials—Quantifying Particle Cracking, Active Surface Area, and Lithium Diffusion // Advanced Energy Materials. 2021. Vol. 11. No. 18. p. 2003400.
RIS |
Цитировать
TY - JOUR
DO - 10.1002/aenm.202003400
UR - https://onlinelibrary.wiley.com/doi/10.1002/aenm.202003400
TI - Polycrystalline and Single Crystalline NCM Cathode Materials—Quantifying Particle Cracking, Active Surface Area, and Lithium Diffusion
T2 - Advanced Energy Materials
AU - Trevisanello, Enrico
AU - Rueß, Raffael
AU - Conforto, Gioele
AU - Richter, Felix H.
AU - Janek, Jürgen
PY - 2021
DA - 2021/03/24
PB - Wiley
SP - 2003400
IS - 18
VL - 11
SN - 1614-6832
SN - 1614-6840
ER -
BibTex |
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BibTex (до 50 авторов) Скопировать
@article{2021_Trevisanello,
author = {Enrico Trevisanello and Raffael Rueß and Gioele Conforto and Felix H. Richter and Jürgen Janek},
title = {Polycrystalline and Single Crystalline NCM Cathode Materials—Quantifying Particle Cracking, Active Surface Area, and Lithium Diffusion},
journal = {Advanced Energy Materials},
year = {2021},
volume = {11},
publisher = {Wiley},
month = {mar},
url = {https://onlinelibrary.wiley.com/doi/10.1002/aenm.202003400},
number = {18},
pages = {2003400},
doi = {10.1002/aenm.202003400}
}
MLA
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Trevisanello, Enrico, et al. “Polycrystalline and Single Crystalline NCM Cathode Materials—Quantifying Particle Cracking, Active Surface Area, and Lithium Diffusion.” Advanced Energy Materials, vol. 11, no. 18, Mar. 2021, p. 2003400. https://onlinelibrary.wiley.com/doi/10.1002/aenm.202003400.
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