High‐Energy Ni‐Rich Cathode Materials for Long‐Range and Long‐Life Electric Vehicles
Published 2022 View Full Article
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Title
High‐Energy Ni‐Rich Cathode Materials for Long‐Range and Long‐Life Electric Vehicles
Authors
Keywords
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Journal
Advanced Energy Materials
Volume 12, Issue 21, Pages 2200615
Publisher
Wiley
Online
2022-04-16
DOI
10.1002/aenm.202200615
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Note: Only part of the references are listed.- Hierarchical nickel valence gradient stabilizes high-nickel content layered cathode materials
- (2021) Ruoqian Lin et al. Nature Communications
- Surface enrichment and diffusion enabling gradient-doping and coating of Ni-rich cathode toward Li-ion batteries
- (2021) Haifeng Yu et al. Nature Communications
- Tungsten Infused Grain Boundaries Enabling Universal Performance Enhancement of Co-Free Ni-Rich Cathode Materials
- (2021) Divya Rathore et al. JOURNAL OF THE ELECTROCHEMICAL SOCIETY
- Transition metal-doped Ni-rich layered cathode materials for durable Li-ion batteries
- (2021) H. Hohyun Sun et al. Nature Communications
- High-Energy Cathodes via Precision Microstructure Tailoring for Next-Generation Electric Vehicles
- (2021) Nam-Yung Park et al. ACS Energy Letters
- Extended cycle life implications of fast charging for lithium-ion battery cathode
- (2021) Tanvir R. Tanim et al. Energy Storage Materials
- A highly stabilized Ni-rich NCA cathode for high-energy lithium-ion batteries
- (2020) Hoon-Hee Ryu et al. Materials Today
- Beyond Doping and Coating: Prospective Strategies for Stable High-Capacity Layered Ni-rich Cathodes
- (2020) Ho-Hyun Sun et al. ACS Energy Letters
- Heuristic solution for achieving long-term cycle stability for Ni-rich layered cathodes at full depth of discharge
- (2020) Un-Hyuck Kim et al. Nature Energy
- Stabilization of a Highly Ni-Rich Layered Oxide Cathode through Flower-Petal Grain Arrays
- (2020) H. Hohyun Sun et al. ACS Nano
- Microstrain Alleviation in High-Energy Ni-Rich NCMA Cathode for Long Battery Life
- (2020) Hoon-Hee Ryu et al. ACS Energy Letters
- Microstructure-Controlled Ni-Rich Cathode Material by Microscale Compositional Partition for Next-Generation Electric Vehicles
- (2019) Un-Hyuck Kim et al. Advanced Energy Materials
- Highly Stabilized Ni-Rich Cathode Material with Mo Induced Epitaxially Grown Nanostructured Hybrid Surface for High-Performance Lithium-Ion Batteries
- (2019) Chunliu Xu et al. ACS Applied Materials & Interfaces
- Degradation Mechanism of Ni-Enriched NCA Cathode for Lithium Batteries: Are Microcracks Really Critical?
- (2019) Kang-Joon Park et al. ACS Energy Letters
- Capacity Fading of Ni-Rich NCA Cathodes: Effect of Microcracking Extent
- (2019) Gyeong Won Nam et al. ACS Energy Letters
- Microstructure Evolution of Concentration Gradient Li[Ni0.75 Co0.10 Mn0.15 ]O2 Cathode for Lithium-Ion Batteries
- (2018) Chong S. Yoon et al. ADVANCED FUNCTIONAL MATERIALS
- Capacity Fading of Ni-Rich Li[NixCoyMn1–x–y]O2 (0.6 ≤ x ≤ 0.95) Cathodes for High-Energy-Density Lithium-Ion Batteries: Bulk or Surface Degradation?
- (2018) Hoon-Hee Ryu et al. CHEMISTRY OF MATERIALS
- Pushing the limit of layered transition metal oxide cathodes for high-energy density rechargeable Li ion batteries
- (2018) U.-H. Kim et al. Energy & Environmental Science
- Oxygen Release Induced Chemomechanical Breakdown of Layered Cathode Materials
- (2018) Linqin Mu et al. NANO LETTERS
- Microstructural Degradation of Ni-Rich Li[Ni x Co y Mn1 −x−y ]O2 Cathodes During Accelerated Calendar Aging
- (2018) Hoon-Hee Ryu et al. Small
- Between Scylla and Charybdis: Balancing Among Structural Stability and Energy Density of Layered NCM Cathode Materials for Advanced Lithium-Ion Batteries
- (2017) Lea de Biasi et al. Journal of Physical Chemistry C
- Origin of Structural Degradation During Cycling and Low Thermal Stability of Ni-Rich Layered Transition Metal-Based Electrode Materials
- (2017) Mudit Dixit et al. Journal of Physical Chemistry C
- Anisotropic Lattice Strain and Mechanical Degradation of High- and Low-Nickel NCM Cathode Materials for Li-Ion Batteries
- (2017) Aleksandr O. Kondrakov et al. Journal of Physical Chemistry C
- Intragranular cracking as a critical barrier for high-voltage usage of layer-structured cathode for lithium-ion batteries
- (2017) Pengfei Yan et al. Nature Communications
- Intrinsic Origins of Crack Generation in Ni-rich LiNi0.8Co0.1Mn0.1O2 Layered Oxide Cathode Material
- (2017) Jin-Myoung Lim et al. Scientific Reports
- Structural Changes and Thermal Stability of Charged LiNixMnyCozO2 Cathode Materials Studied by Combined In Situ Time-Resolved XRD and Mass Spectroscopy
- (2014) Seong-Min Bak et al. ACS Applied Materials & Interfaces
- Capacity fade of LiAlyNi1−x−yCoxO2 cathode for lithium-ion batteries during accelerated calendar and cycle life tests (surface analysis of LiAlyNi1−x−yCoxO2 cathode after cycle tests in restricted depth of discharge ranges)
- (2014) Shoichiro Watanabe et al. JOURNAL OF POWER SOURCES
- Capacity fading of LiAlyNi1−x−yCoxO2 cathode for lithium-ion batteries during accelerated calendar and cycle life tests (effect of depth of discharge in charge–discharge cycling on the suppression of the micro-crack generation of LiAlyNi1−x−yCoxO2 particle)
- (2014) Shoichiro Watanabe et al. JOURNAL OF POWER SOURCES
- Comparison of the structural and electrochemical properties of layered Li[NixCoyMnz]O2 (x = 1/3, 0.5, 0.6, 0.7, 0.8 and 0.85) cathode material for lithium-ion batteries
- (2013) Hyung-Joo Noh et al. JOURNAL OF POWER SOURCES
- Observation of Microstructural Evolution in Li Battery Cathode Oxide Particles by In Situ Electron Microscopy
- (2013) Dean J. Miller et al. Advanced Energy Materials
- Capacity-Fading Mechanisms of LiNiO[sub 2]-Based Lithium-Ion Batteries
- (2009) Shunsuke Muto et al. JOURNAL OF THE ELECTROCHEMICAL SOCIETY
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