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All-solid-state lithium-ion batteries are promising energy storage devices …
All-solid-state lithium-ion batteries are promising energy storage devices owing to their safe use and high energy density, whereby understanding electrode and solid …
Here, in-situ local electrochemical impedance spectra were developed to investigate local inhomogeneities in the mass transfer process of lithium-ion batteries. The …
Solid-state lithium battery (SSLB) is considered as one of the promising candidates for next-generation power batteries due to high safety, unprecedented energy …
Here, in-situ local electrochemical impedance spectra were developed to investigate local inhomogeneities in the mass transfer process of …
Lithium–sulfur battery promises great potential to promote the reform of energy storage field. Modified functional interlayer on separator has been recognized as efficient …
A multi-scale transport theory to reveal the nature of Li + transport in solid …
Accelerating the mass transfer rate within LABs is a crucial aspect for enhancing their rate capability. In this Perspective, we have meticulously analyzed the ion and oxygen …
The mass transfer and diffusion of carbon nanotubes as catalysts in lithium air batteries were studied by Huang et al. 16 The influence of the diffusion limited transient …
The mass transfer process is inherently "coupled" to the batery perfomance as it affects the Li-metal deposition process, as well as the charging process efficiency.
Abstract. Thermal management is critical for safety, performance, and durability of lithium-ion batteries that are ubiquitous in consumer electronics, electric vehicles (EVs), …
Rate Lithium−Air Batteries Yu-Long Liang, Yue Yu, Zi-Wei Li, Jun-Min Yan, Gang Huang,* and Xin-Bo Zhang* ... individually emphasize the impact of various battery parameters on mass …
This study considers mass transport within LIBs, and the extent to which electrochemical techniques, particularly EIS, can be used to meaningfully probe mass …
Accelerating the mass transfer rate within LABs is a crucial aspect for enhancing their rate capability. In this Perspective, we have meticulously analyzed the ion and oxygen …
Lithium-air batteries (LABs) have aroused worldwide interest due to their high energy density as a promising next-generation battery technology. From a practical standpoint, …
Here, in-situ local electrochemical impedance spectra were developed to investigate local inhomogeneities in the mass transfer process of lithium-ion batteries. The …
However, while there are many factors that affect lithium-ion batteries, the most important factor is their sensitivity to thermal effects. Lithium-ion batteries perform best when …
A multi-scale transport theory to reveal the nature of Li + transport in solid-state lithium batteries is proposed. Generalized design rules for improving ion-transport kinetics are …
Accelerating the mass transfer rate within LABs is a crucial aspect for enhancing their rate capability. In this Perspective, we have meticulously analyzed the ion and oxygen transport processes to provide …
Choosing an appropriate active particle size with proper distribution can effectively enhance the energy density of lithium-ion batteries. The research results provide useful basic knowledge …
The contribution deals with the significance of size effects for lithium-based batteries. The relevant size effects range from purely geometrical effects to effects in which …
The commercialization of high-capacity silicon materials in lithium-ion batteries is hindered by significant volume changes. Composite anodes made from silicon and graphite, …