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Electrochemical oxidative stability of hydroborate-based solid-state electrolytes
Asakura, R., Duchêne, L., Kühnel, R. S., Remhof, A., Hagemann, H., & Battaglia, C. (2019). Electrochemical oxidative stability of hydroborate-based solid-state electrolytes. ACS Applied Energy Materials, 2(9), 6924-6930. https://doi.org/10.1021/acsaem.9b01487
Reorientational hydrogen dynamics in complex hydrides with enhanced Li<sup>+</sup> conduction
Burankova, T., Duchêne, L., Łodziana, Z., Frick, B., Yan, Y., Kühnel, R. S., … Embs, J. P. (2017). Reorientational hydrogen dynamics in complex hydrides with enhanced Li+ conduction. Journal of Physical Chemistry C, 121(33), 17693-17702. https://doi.org/10.1021/acs.jpcc.7b05651
A highly stable sodium solid-state electrolyte based on a dodeca/deca-borate equimolar mixture
Duchêne, L., Kühnel, R. S., Rentsch, D., Remhof, A., Hagemann, H., & Battaglia, C. (2017). A highly stable sodium solid-state electrolyte based on a dodeca/deca-borate equimolar mixture. Chemical Communications, 53(30), 4195-4198. https://doi.org/10.1039/C7CC00794A
Magnesium ethylenediamine borohydride as solid-state electrolyte for magnesium batteries
Roedern, E., Kühnel, R. S., Remhof, A., & Battaglia, C. (2017). Magnesium ethylenediamine borohydride as solid-state electrolyte for magnesium batteries. Scientific Reports, 7, 46189 (6 pp.). https://doi.org/10.1038/srep46189
A lithium amide-borohydride solid-state electrolyte with lithium-ion conductivities comparable to liquid electrolytes
Yan, Y., Kühnel, R. S., Remhof, A., Duchêne, L., Cuervo Reyes, E., Rentsch, D., … Battaglia, C. (2017). A lithium amide-borohydride solid-state electrolyte with lithium-ion conductivities comparable to liquid electrolytes. Advanced Energy Materials, 7(19), 1700294 (7 pp.). https://doi.org/10.1002/aenm.201700294
“Water-in-salt” electrolytes enable the use of cost-effective aluminum current collectors for aqueous high-voltage batteries
Kühnel, R. S., Reber, D., Remhof, A., Figi, R., Bleiner, D., & Battaglia, C. (2016). “Water-in-salt” electrolytes enable the use of cost-effective aluminum current collectors for aqueous high-voltage batteries. Chemical Communications, 52(68), 10435-10438. https://doi.org/10.1039/C6CC03969C