Quantification of the Dynamic Interface Evolution in High‐Efficiency Working Li‐Metal Batteries
Lithium (Li) metal has been considered a promising anode for next‐generation high‐energy‐
density batteries. However, the low reversibility and intricate Li loss hinder the widespread …
density batteries. However, the low reversibility and intricate Li loss hinder the widespread …
Resolving current-dependent regimes of electroplating mechanisms for fast charging lithium metal anodes
Poor fast-charge capabilities limit the usage of rechargeable Li metal anodes.
Understanding the connection between charging rate, electroplating mechanism, and Li …
Understanding the connection between charging rate, electroplating mechanism, and Li …
Recent progress of in-situ characterization of LiNi1−x−yCoxMnyO2 cathodes for lithium metal batteries: A mini review
H Lv, X Zhu, J Mei, Y Xia, B Wang - Nano Research, 2024 - Springer
In the context of the gradual popularity of electric vehicles (EVs), the development of lithium
battery systems with high energy density and power density is regarded as the foremost way …
battery systems with high energy density and power density is regarded as the foremost way …
In operando closed-cell transmission electron microscopy for rechargeable battery characterization: Scientific breakthroughs and practical limitations
Abstract Development of high-performance rechargeable batteries is hinged on a clear
mechanistic understanding of the fundamental electrochemical processes. In operando …
mechanistic understanding of the fundamental electrochemical processes. In operando …
In situ TEM studies of the oxidation of Li dendrites at high temperatures
Y Li, X Li, J Chen, C Cai, W Tu, J Zhao… - Advanced Functional …, 2022 - Wiley Online Library
Although lithium (Li) is inert to dry oxygen at room temperature, it reacts with dry oxygen at
elevated temperatures, causing thermal runaway and fire hazard in Li metal batteries …
elevated temperatures, causing thermal runaway and fire hazard in Li metal batteries …
In situ imaging the dynamics of sodium metal deposition and stripping
L Geng, C Zhao, J Yan, C Fu, X Zhang, J Yao… - Journal of Materials …, 2022 - pubs.rsc.org
Sodium (Na) metal batteries (SMBs) are potential “beyond lithium (Li)” energy storage
technology. However, uncontrollable Na dendrite growth hinders the practical application of …
technology. However, uncontrollable Na dendrite growth hinders the practical application of …
Phase-field simulation tending to depict practical electrodeposition process in lithium-based batteries
Y Li, L Sha, G Zhang, B Chen, W Zhao, Y Wang… - Chinese Chemical …, 2023 - Elsevier
Lithium dendrite growth due to uneven electrodeposition usually leads to the potential
hazard of internal short circuit and shorter lifetime of lithium-based batteries. Extensive …
hazard of internal short circuit and shorter lifetime of lithium-based batteries. Extensive …
The growth mechanism of lithium dendrites and its coupling to mechanical stress
J Becherer, D Kramer, R Mönig - Journal of Materials Chemistry A, 2022 - pubs.rsc.org
Operando high-resolution light microscopy with extended depth of field is used to observe
large regions of an electrode during electrodeposition of lithium. The analysis of the …
large regions of an electrode during electrodeposition of lithium. The analysis of the …
Boosting the lithium-ion storage performance of perovskite SrxVO3− δ via Sr cation and O anion deficient engineering
X Li, Z Lin, N Jin, X Yang, L Sun, Y Wang, L Xie… - Science Bulletin, 2022 - Elsevier
Perovskite SrVO 3 has been investigated as a promising lithium storage anode where the V
cation plays the role of the redox center, combining excellent cycle stability and safe …
cation plays the role of the redox center, combining excellent cycle stability and safe …
Visualizing Structure, Growth, and Dynamics of Li Dendrite in Batteries: From Atomic to Device Scales
Y Li, H Xu, Q Ning, S Li, J Wang, J Wang… - Advanced Functional …, 2024 - Wiley Online Library
The growth of lithium (Li) dendrites, characterized by construction of internal Li substrate and
surface solid electrolyte interphase (SEI), represents a significant hurdle for both liquid‐state …
surface solid electrolyte interphase (SEI), represents a significant hurdle for both liquid‐state …