Add to ORKGDue to complex degradation mechanisms, disparities between the theoretical and practical capacities of lithium-ion battery cathode materials persist. Specifically, Ni-rich chemistries such as LiNi0.8Mn0.1Co0.1O2 (or NMC811) are one of the most promising choices for automotive applications; however, they continue to suffer severe degradation during operation that is poorly understood, thus challenging to mitigate. Here we use operando Bragg coherent diffraction imaging for 4D analysis of these mechanisms by inspecting the individual crystals within primary particles at various states of charge (SoC). Although some crystals were relatively homogeneous, we consistently observed non-uniform distributions of inter- and intracrystal strain at all...
Nanoscale disorder plays an essential role in guiding material properties which promise to solve man...
Nanoscale disorder plays an essential role in guiding material properties which promise to solve man...
Establishing the nature of crack generation, formation, and propagation is paramount to understandin...
Summary: The search for higher performance, improved safety, and lifetime of lithium-ion batteries r...
For the development of next-generation batteries it is important to understand the structural change...
For the development of next-generation batteries it is important to understand the structural change...
For the development of next-generation batteries it is important to understand the structural change...
Surface lattice reconstruction is commonly observed in nickel-rich layered oxide battery cathode mat...
Li-ion battery cathode active materials obtained from different sources or preparation methods often...
<p>For the development of next-generation batteries it is important to understand the structural cha...
This study presents the application of X-ray diffraction computed tomography for the first time to a...
The performance and durability of Ni-rich cathode materials are controlled in no small part by their...
Layered lithium transition-metal oxide materials, e.g., Li(Ni1- x - y Co x Mn y )O2 (NCM) and Li(Ni1...
Layered lithium transition-metal oxide materials, e.g., Li(Ni1- x - y Co x Mn y )O2 (NCM) and Li(Ni1...
Nanoscale disorder plays an essential role in guiding material properties which promise to solve man...
Nanoscale disorder plays an essential role in guiding material properties which promise to solve man...
Nanoscale disorder plays an essential role in guiding material properties which promise to solve man...
Establishing the nature of crack generation, formation, and propagation is paramount to understandin...
Summary: The search for higher performance, improved safety, and lifetime of lithium-ion batteries r...
For the development of next-generation batteries it is important to understand the structural change...
For the development of next-generation batteries it is important to understand the structural change...
For the development of next-generation batteries it is important to understand the structural change...
Surface lattice reconstruction is commonly observed in nickel-rich layered oxide battery cathode mat...
Li-ion battery cathode active materials obtained from different sources or preparation methods often...
<p>For the development of next-generation batteries it is important to understand the structural cha...
This study presents the application of X-ray diffraction computed tomography for the first time to a...
The performance and durability of Ni-rich cathode materials are controlled in no small part by their...
Layered lithium transition-metal oxide materials, e.g., Li(Ni1- x - y Co x Mn y )O2 (NCM) and Li(Ni1...
Layered lithium transition-metal oxide materials, e.g., Li(Ni1- x - y Co x Mn y )O2 (NCM) and Li(Ni1...
Nanoscale disorder plays an essential role in guiding material properties which promise to solve man...
Nanoscale disorder plays an essential role in guiding material properties which promise to solve man...
Nanoscale disorder plays an essential role in guiding material properties which promise to solve man...
Establishing the nature of crack generation, formation, and propagation is paramount to understandin...