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Water-in-salt electrolytes for aqueous lithium-ion batteries with liquidus temperatures below -10 °C
Becker, M., Kühnel, R. S., & Battaglia, C. (2019). Water-in-salt electrolytes for aqueous lithium-ion batteries with liquidus temperatures below -10 °C. Chemical Communications, 55(80), 12032-12035. https://doi.org/10.1039/C9CC04495G
Stability of aqueous electrolytes based on LiFSI and NaFSI
Reber, D., Figi, R., Kühnel, R. S., & Battaglia, C. (2019). Stability of aqueous electrolytes based on LiFSI and NaFSI. Electrochimica Acta, 321, 134644 (6 pp.). https://doi.org/10.1016/j.electacta.2019.134644
Suppressing crystallization of water-in-salt electrolytes by asymmetric anions enables low-temperature operation of high-voltage aqueous batteries
Reber, D., Kühnel, R. S., & Battaglia, C. (2019). Suppressing crystallization of water-in-salt electrolytes by asymmetric anions enables low-temperature operation of high-voltage aqueous batteries. ACS Materials Letters, 1(1), 44-51. https://doi.org/10.1021/acsmaterialslett.9b00043
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 high-voltage aqueous electrolyte for sodium-ion batteries
Kühnel, R. S., Reber, D., & Battaglia, C. (2017). A high-voltage aqueous electrolyte for sodium-ion batteries. ACS Energy Letters, 2(9), 2005-2006. https://doi.org/10.1021/acsenergylett.7b00623
High-voltage aqueous supercapacitors based on NaTFSI
Reber, D., Kühnel, R. S., & Battaglia, C. (2017). High-voltage aqueous supercapacitors based on NaTFSI. Sustainable Energy and Fuels, 1(10), 2155-2161. https://doi.org/10.1039/C7SE00423K