Journal
JOURNAL OF POWER SOURCES
Volume 195, Issue 19, Pages 6839-6846Publisher
ELSEVIER
DOI: 10.1016/j.jpowsour.2010.04.033
Keywords
Silver vanadium phosphorous oxide; AC impedance; Conductivity; Electrochemical reduction; Electrical resistance; Lithium battery
Funding
- New York State Foundation for Science, Technology, and Innovation
- University at Buffalo (SUNY)
- National Heart, Lung, and Blood Institute [1R01HL093044-01A1]
- NATIONAL HEART, LUNG, AND BLOOD INSTITUTE [R01HL093044] Funding Source: NIH RePORTER
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This report details the chemical and associated electrical resistance changes of silver vanadium phosphorous oxide (Ag(2)VO(2)Pat, SVPO) incurred during electrochemical reduction in a lithium based electrochemical cell over the range of 0-4 electrons per formula unit. Specifically the cathode electrical conductivities and associated cell DC resistance and cell AC impedance values vary with the level of reduction, due the changes of the SVPO cathode. Initially. Ag+ is reduced to Ag-0 (2 electrons per formula unit or 50% of the calculated theoretical value of 4 electrons per formula unit) accompanied by significant decreases in the cathode electrical resistance, consistent with the formation of an electrically conductive silver metal matrix within the SVPO cathode. As Ag+ reduction progresses, V5+ reduction initiates; once the SVPO reduction process progresses to where the reduction of V5+ to V4+ is the dominant process, both the cell and the cathode electrical resistances then begin to increase. If the discharge then continues to where the dominant cathode reduction process is the reduction of V4+ to V3+, the cathode and cell electrical resistances then begin to decrease. The complex cathode electrical resistance pattern exhibited during full cell discharge is an important subject of this study. (C) 2010 Elsevier B.V. All rights reserved.
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