Gallant Energy and Carbon Conversion Lab
  • Home
  • About Us
  • Research
    • Rechargeable batteries
    • Primary batteries
    • CO2 mitigation
  • Publications
  • Openings
  • Contact
Select Page
Electrochemical reduction of CO2 in the captured state using aqueous or nonaqueous amines

Electrochemical reduction of CO2 in the captured state using aqueous or nonaqueous amines

by lisa | Jul 6, 2022 | Publications

S. E. Jerng and B. M. GallantiScience 2022, 25, 7, 104558[publisher link] Abstract CO2 capture and its electrochemical conversion have historically developed as two distinct technologies and scientific fields. Each process possesses unique energy penalties,...
Lithium primary batteries employing multi-electron carbon-fluorine bond cleavage in perfluoroalkylated reactants

Lithium primary batteries employing multi-electron carbon-fluorine bond cleavage in perfluoroalkylated reactants

by lisa | May 18, 2022 | Publications

H. Gao, A. Sevilla, B. M. GallantJournal of the Electrochemical Society, 2022★ Editor’s Choice[publisher link] Abstract While Li−carbon monofluoride (CFx) is the current energy leader among primary batteries, the technology is maturing, motivating further fundamental...
Life cycle assessment of CO2 conversion and storage in metal–CO2 electrochemical cells

Life cycle assessment of CO2 conversion and storage in metal–CO2 electrochemical cells

by lisa | Mar 24, 2022 | Publications

O. Pfeiffer, A. Khurram, E. A. Olivetti and B. M. GallantJournal of Industrial Ecology 2022 [publisher link]   Abstract Researchers have proposed a family of electrochemical technologies that incorporate CO2 as a gas cathode and alkali or alkaline earth metal...
Toggling calcium plating activity and reversibility through modulation of Ca2+ speciation in borohydride-based electrolytes

Toggling calcium plating activity and reversibility through modulation of Ca2+ speciation in borohydride-based electrolytes

by lisa | Jan 5, 2022 | Publications

A. M. Melemed, D. A. Skiba, B. M. GallantJournal of Physical Chemistry C2022 126 (2), 892-902[publisher link] Abstract Learning how to tailor Ca2+ speciation and electroactivity is of central importance to engineer next-generation battery electrolytes. Using an...
The ionic interphases of the lithium anode in solid state batteries

The ionic interphases of the lithium anode in solid state batteries

by lisa | Jan 2, 2022 | Publications

R. Guo, G. M. Hobold, B. M. Gallant,Current Opinion in Solid State and Materials Science2022, 26, 100973[publisher link]   Abstract Solid state battery (SSB) performance is largely governed by processes occurring at electrolyte–electrode interfaces. At the Li...

Recent Posts

  • Electrochemical reduction of CO2 in the captured state using aqueous or nonaqueous amines
  • This is my sub title7
  • Lithium primary batteries employing multi-electron carbon-fluorine bond cleavage in perfluoroalkylated reactants
  • Life cycle assessment of CO2 conversion and storage in metal–CO2 electrochemical cells
  • Toggling calcium plating activity and reversibility through modulation of Ca2+ speciation in borohydride-based electrolytes

Recent Comments

    Archives

    • July 2022
    • May 2022
    • March 2022
    • January 2022

    Categories

    • how-to
    • Publications

    Meta

    • Log in
    • Entries feed
    • Comments feed
    • WordPress.org

    Gallant Energy and Carbon Conversion Lab

    77 Massachusetts Avenue, Building 3-315

    Cambridge, MA 02139

    © 2022 MIT

    Accessibility

    Google Scholar