Manipulation of Transition Metal Migration via Cr-Doping for Better-Performance Li-Rich, Co-Free Cathodes

Yameng Fan; Emilia Olsson; Bernt Johannessen; Anita M. D’Angelo; Lars Thomsen; Bruce Cowie; Lachlan Smillie; Gemeng Liang; Yaojie Lei; Guyue Bo; Yunlong Zhao; Wei Kong Pang; Qiong Cai; Zaiping Guo

doi:10.1021/acsenergylett.3c02509

Manipulation of Transition Metal Migration via Cr-Doping for Better-Performance Li-Rich, Co-Free Cathodes

Yameng Fan, Emilia Olsson, Bernt Johannessen, Anita M. D’Angelo, Lars Thomsen, Bruce Cowie, Lachlan Smillie, Gemeng Liang, Yaojie Lei, Guyue Bo, Yunlong Zhao, Wei Kong Pang^*, Qiong Cai^*, Zaiping Guo^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

32 Citations (Scopus)

Abstract

The irreversible migration of transition metals is a primary issue, resulting in detrimental structural changes and poor battery performance in Li-rich layered oxide (LLO) cathodes. Herein, we propose that manipulating the migration of transition metals between octahedral and tetrahedral sites effectively inhibits undesirable phase transitions by stabilizing the delithiated structure of LLOs at high potential. This is demonstrated by introducing Cr into the Co-free LLO, Li_1.2Ni_0.2Mn_0.6O₂. A new spinel-like phase, accompanied by significant lattice variation, was observed in the heavily cycled Co-free LLO at high potential by using operando synchrotron characterizations. Benefiting from a well-maintained solid-solution reaction after long-term cycling, Cr-doped Li_1.2Ni_0.2Mn_0.6O₂ delivers up to 99% of its initial discharge capacity after 200 cycles at 1C (∼200 mAh g^-1), far surpassing the pristine material (∼74%). The work provides valuable insights into the structural degradation mechanisms of LLOs and underscores the importance of stabilizing the delithiated structure at high potential. © 2024 American Chemical Society.

Original language	English
Pages (from-to)	487-496
Journal	ACS Energy Letters
Volume	9
Issue number	2
Online published	19 Jan 2024
DOIs	https://doi.org/10.1021/acsenergylett.3c02509
Publication status	Published - 9 Feb 2024
Externally published	Yes

Funding

Y.F. is grateful for the joint Surrey-Wollongong Ph.D. studentship and higher degree research (HDR) scholarship. The authors thank the Electron Microscopy Centre (EMC) at the University of Wollongong for the equipment assistance. This work is supported by the Australian Research Council for FT160100251 and DP230100198. Part of this work was carried out at the Powder Diffraction beamline (beamtime: M18919, M18471), the wiggler XAS beamline (12-ID) (beamtime: M18863), the Soft X-ray (SXR) beamline (beamtime: M19598) at the Australian Synchrotron, and Echidna (beamtime: MI13653) at the Australian Centre for Neutron Scattering under merit programs. The authors acknowledge the operational support of ANSTO staff, especially Prof. Vanessa K. Peterson, for collecting NPD. This work used the Dutch national e-infrastructure with the support of the SURF Cooperative using grant no. EINF-2434, and the authors thank SURF ( www.surf.nl ) for the support in using the National Supercomputer Snellius. E.O. is grateful for a WISE Fellowship from the Dutch Research Council (NWO).

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title = "Manipulation of Transition Metal Migration via Cr-Doping for Better-Performance Li-Rich, Co-Free Cathodes",

abstract = "The irreversible migration of transition metals is a primary issue, resulting in detrimental structural changes and poor battery performance in Li-rich layered oxide (LLO) cathodes. Herein, we propose that manipulating the migration of transition metals between octahedral and tetrahedral sites effectively inhibits undesirable phase transitions by stabilizing the delithiated structure of LLOs at high potential. This is demonstrated by introducing Cr into the Co-free LLO, Li1.2Ni0.2Mn0.6O2. A new spinel-like phase, accompanied by significant lattice variation, was observed in the heavily cycled Co-free LLO at high potential by using operando synchrotron characterizations. Benefiting from a well-maintained solid-solution reaction after long-term cycling, Cr-doped Li1.2Ni0.2Mn0.6O2 delivers up to 99% of its initial discharge capacity after 200 cycles at 1C (∼200 mAh g-1), far surpassing the pristine material (∼74%). The work provides valuable insights into the structural degradation mechanisms of LLOs and underscores the importance of stabilizing the delithiated structure at high potential. {\textcopyright} 2024 American Chemical Society.",

author = "Yameng Fan and Emilia Olsson and Bernt Johannessen and D{\textquoteright}Angelo, {Anita M.} and Lars Thomsen and Bruce Cowie and Lachlan Smillie and Gemeng Liang and Yaojie Lei and Guyue Bo and Yunlong Zhao and Pang, {Wei Kong} and Qiong Cai and Zaiping Guo",

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T1 - Manipulation of Transition Metal Migration via Cr-Doping for Better-Performance Li-Rich, Co-Free Cathodes

AU - Fan, Yameng

AU - Olsson, Emilia

AU - Johannessen, Bernt

AU - D’Angelo, Anita M.

AU - Thomsen, Lars

AU - Cowie, Bruce

AU - Smillie, Lachlan

AU - Liang, Gemeng

AU - Lei, Yaojie

AU - Bo, Guyue

AU - Zhao, Yunlong

AU - Pang, Wei Kong

AU - Cai, Qiong

AU - Guo, Zaiping

PY - 2024/2/9

Y1 - 2024/2/9

N2 - The irreversible migration of transition metals is a primary issue, resulting in detrimental structural changes and poor battery performance in Li-rich layered oxide (LLO) cathodes. Herein, we propose that manipulating the migration of transition metals between octahedral and tetrahedral sites effectively inhibits undesirable phase transitions by stabilizing the delithiated structure of LLOs at high potential. This is demonstrated by introducing Cr into the Co-free LLO, Li1.2Ni0.2Mn0.6O2. A new spinel-like phase, accompanied by significant lattice variation, was observed in the heavily cycled Co-free LLO at high potential by using operando synchrotron characterizations. Benefiting from a well-maintained solid-solution reaction after long-term cycling, Cr-doped Li1.2Ni0.2Mn0.6O2 delivers up to 99% of its initial discharge capacity after 200 cycles at 1C (∼200 mAh g-1), far surpassing the pristine material (∼74%). The work provides valuable insights into the structural degradation mechanisms of LLOs and underscores the importance of stabilizing the delithiated structure at high potential. © 2024 American Chemical Society.

AB - The irreversible migration of transition metals is a primary issue, resulting in detrimental structural changes and poor battery performance in Li-rich layered oxide (LLO) cathodes. Herein, we propose that manipulating the migration of transition metals between octahedral and tetrahedral sites effectively inhibits undesirable phase transitions by stabilizing the delithiated structure of LLOs at high potential. This is demonstrated by introducing Cr into the Co-free LLO, Li1.2Ni0.2Mn0.6O2. A new spinel-like phase, accompanied by significant lattice variation, was observed in the heavily cycled Co-free LLO at high potential by using operando synchrotron characterizations. Benefiting from a well-maintained solid-solution reaction after long-term cycling, Cr-doped Li1.2Ni0.2Mn0.6O2 delivers up to 99% of its initial discharge capacity after 200 cycles at 1C (∼200 mAh g-1), far surpassing the pristine material (∼74%). The work provides valuable insights into the structural degradation mechanisms of LLOs and underscores the importance of stabilizing the delithiated structure at high potential. © 2024 American Chemical Society.

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M3 - RGC 21 - Publication in refereed journal

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JO - ACS Energy Letters

JF - ACS Energy Letters

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ER -

Manipulation of Transition Metal Migration via Cr-Doping for Better-Performance Li-Rich, Co-Free Cathodes

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