Structure and chemical composition of the Mg electrode during cycling in a simple glyme electrolyte

Dimogiannis, Konstantinos; Sankowski, Andrzej; Holc, Conrad; Parmenter, Christopher D.J.; Newton, Graham N.; Walsh, Darren A.; O'Shea, James; Khlobystov, Andrei N.; Johnson, Lee R.

doi:10.1016/j.ensm.2024.103280

All Outputs (2)

A High Capacity Gas Diffusion Electrode for Li–O2 Batteries (2024)
Journal Article
Jenkins, M., Dewar, D., Lagnoni, M., Yang, S., Rees, G. J., Bertei, A., Johnson, L. R., Gao, X., & Bruce, P. G. (2024). A High Capacity Gas Diffusion Electrode for Li–O2 Batteries. Advanced Materials, 36(41), Article 2405715. https://doi.org/10.1002/adma.202405715

The very high theoretical specific energy of the lithium–air (Li–O2) battery (3500 Wh kg−1) compared with other batteries makes it potentially attractive, especially for the electrification of flight. While progress has been made in realizing the Li–... Read More about A High Capacity Gas Diffusion Electrode for Li–O2 Batteries.

Structure and chemical composition of the Mg electrode during cycling in a simple glyme electrolyte (2024)
Journal Article
Dimogiannis, K., Sankowski, A., Holc, C., Parmenter, C. D., Newton, G. N., Walsh, D. A., …Johnson, L. R. (2024). Structure and chemical composition of the Mg electrode during cycling in a simple glyme electrolyte. Energy Storage Materials, 67, Article 103280. https://doi.org/10.1016/j.ensm.2024.103280

The volumetric energy density of magnesium exceeds that of lithium, making magnesium batteries particularly promising for next-generation energy storage. However, electrochemical cycling of magnesium electrodes in common battery electrolytes is coulo... Read More about Structure and chemical composition of the Mg electrode during cycling in a simple glyme electrolyte.