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Elucidating Concentration-Dependent Energy Limitations in Li Primary Battery Fluoro-organosulfur Catholytes

Elucidating Concentration-Dependent Energy Limitations in Li Primary Battery Fluoro-organosulfur Catholytes

by Doug Foley | Jan 24, 2023 | Publications

R. Sevilla, H. Gao, K. J. Steinberg, and B. M. GallantElucidating Concentration-Dependent Energy Limitations in Li Primary Battery Fluoro-organosulfur CatholytesJournal of Physical Chemistry C,  2023, DOI: 10.1021/acs.jpcc.2c07659[publisher link] Abstract Unlocking...
Fluoro-organosulfur catholytes to boost lithium primary battery energy

Fluoro-organosulfur catholytes to boost lithium primary battery energy

by Doug Foley | Nov 4, 2022 | Publications

H. Gao, A. R. Sevilla, G. M. Hobold, A. M. Melemed, R. Guo, S. C. Jones, and B. M. GallantProceedings of the National Academy of Sciences, 2022, 119, e2121440119★ Featured in MIT News and Popular Science[Publisher Link] Abstract Discovery of new electrochemical redox...
Quantifying Capacity Loss Mechanisms of Li Metal Anodes beyond Inactive Li°

Quantifying Capacity Loss Mechanisms of Li Metal Anodes beyond Inactive Li°

by Doug Foley | Sep 28, 2022 | Publications

G. M. Hobold and B. M. GallantACS Energy Letters, 2022, 7, 3458-3466[publisher link] Abstract Capacity losses in Li anodes derive from the formation of electronically isolated Li0 and parasitic reactions that form the solid electrolyte interphase (SEI). Loss...
Probing the Functionality of LiFSI Structural Derivatives as Additives for Li Metal Anodes

Probing the Functionality of LiFSI Structural Derivatives as Additives for Li Metal Anodes

by Doug Foley | Sep 14, 2022 | Publications

K. S. Jiang, G. M. Hobold, R. Guo, K. H. Kim, A. M. Melemed, D. Wang, L. Zuin, and B. M. GallantACS Energy Letters, 2022, 7, 3378-3385[Publisher Link] Abstract Lithium (Li) metal is a compelling replacement for graphite anodes in Li-ion batteries to increase...

Recent Posts

  • Elucidating Concentration-Dependent Energy Limitations in Li Primary Battery Fluoro-organosulfur Catholytes
  • Fluoro-organosulfur catholytes to boost lithium primary battery energy
  • Quantifying Capacity Loss Mechanisms of Li Metal Anodes beyond Inactive Li°
  • Probing the Functionality of LiFSI Structural Derivatives as Additives for Li Metal Anodes
  • Electrochemical reduction of CO2 in the captured state using aqueous or nonaqueous amines

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