Low temperature lithium/sulfur secondary battery. Semiannual progress report, December 1, 1974--June 1, 1975. [Development of dissolved sulfur cathode operable at ambient temperatures]

The objective of this program is to develop a dissolved sulfur cathode which can be repeatably charged and discharged with minimal degradation and which is compatible with a Li anode. The redox behavior of dilute S/sub 8/, 0.1--1M LiClO/sub 4/ solutions in dimethyl sulfoxide (DMSO), dimethyl formami...

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Bibliographic Details
Main Authors: Brummer, S. B., Rauh, R. D., Marston, J. M., Shuker, F. S.
Format: Report
Language:English
Published: Eic, Inc., Newton, MA (USA) 1975
Subjects:
25 Energy Storage
Electrochemical Cells
Redox Reactions
Alkali Metal Compounds
Organic Compounds
Sulfides
Lactones
Chemical Reactions
Sulfur Compounds 250903* > Energy Storage > Batteries > Materials
Components
& Auxiliaries
Chalcogenides
Cathodes
Lithium-Sulfur Batteries
Electric Batteries
Organic Oxygen Compounds
Carbonic Acid Esters
Organic Sulfur Compounds
Furans
Esters
Electrodes
Energy Storage Systems
Medium Temperature
Metal-Nonmetal Batteries
Heterocyclic Compounds
Sulfoxides
Lithium Sulfides
Lithium Compounds
Dmso
Carbonic acid
Online Access:https://doi.org/10.2172/7123165
https://digital.library.unt.edu/ark:/67531/metadc1410287/
Description
Summary:The objective of this program is to develop a dissolved sulfur cathode which can be repeatably charged and discharged with minimal degradation and which is compatible with a Li anode. The redox behavior of dilute S/sub 8/, 0.1--1M LiClO/sub 4/ solutions in dimethyl sulfoxide (DMSO), dimethyl formamide (DMF), tetrahydrofuran (THF), propylene carbonate (PC), .gamma.-butyrolactone (BL), sulfolane (SL), methyl acetate (MA) and pyridine was investigated. S/sub 8/ and S/sub 8//sup - -/ reductions occur at more positive potentials and the redox reactions are more reversible in DMSO and DMF than in the other solvents. Some evidence exists for the precipitation of Li/sub 2/S/sub x/ species on Au and Pt working electrodes (but not on C). The electrochemical behavior of Li/sub 2/S/sub x/ solutions was examined. Cyclic voltammograms of polysulfide solutions in DMSO showed generally reductions at more negative potentials and oxidations at more positive potentials than those for S/sub 8/ solutions. The polysulfide and S/sub 8/ voltammograms in THF were more similar. Steady-state current potential curves of DMSO--Li/sub 2/S/sub x/ solutions generally revealed no sizeable reduction currents positive of approximately 1.5 V vs. Li. Galvanostatic discharge of Li/sub 2/S/sub x/ solutions occurs between 1.0 and 2.0 V. Recharge (with a 4.0 V limit) was possible in THF, BL and DMSO. The fact that steady-state discharge in these solutions, andparticularly in DMSO--Li/sub 2/S/sub x/ solutions, occurs at more negative potentials than indicated by cyclic voltammograms suggests a degradation of active species in solution following initial reduction. If the species S/sub 3//sup -/ is more difficult to reduce than S/sup - -//sub x/, then solvents or electrolyte additives which stabilize S/sup - -//sub x/ in preference to S/sub 3//sup -/ would be most favorable for use in a practical battery. 23 figures, 8 tables.

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