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A sodiophilic amyloid fibril modified separator for dendrite-free sodium metal batteries. [Dataset] (2023)
Dataset
WANG, J., GAO, Y., LIU, D., ZOU, G., LI, L., FERNANDEZ, C., ZHANG, Q. and PENG, Q. 2023. A sodiophilic amyloid fibril modified separator for dendrite-free sodium metal batteries. [Dataset]. Advanced materials [online], Accepted Articles, e2304942. Available from: https://doi.org/10.1002/adma.202304942

Sodium (Na) batteries are being considered as prospective candidates for the next generation of secondary batteriesin contrast to lithium-based batteries, due to their high raw material abundance, low cost, and sustainabil... Read More about A sodiophilic amyloid fibril modified separator for dendrite-free sodium metal batteries. [Dataset].

Wave-layered dendrite-free lithium deposition with unprecedented long-term cyclability. [Dataset] (2023)
Dataset
FENG, J., GE, B., WANG, J., ZHANG, L., LIU, D., ZOU, G., TSE, J.S., FERNANDEZ, C., YAN, X. and PENG, Q. 2023. Wave-layered dendrite-free lithium deposition with unprecedented long-term cyclability. [Dataset]. Journal of power sources [online], 560, article 232697. Available from: https://www.sciencedirect.com/science/article/pii/S0378775323000721#appsec1

As the most promising candidate for next-generation batteries, Li metal batteries (such as Li-air and Li–S) have received considerable attention for their ultrahigh theoretical capacity (3860 mAh g−1), the lowest electrochemical potential (−3.040 V v... Read More about Wave-layered dendrite-free lithium deposition with unprecedented long-term cyclability. [Dataset].