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Systematic Variation of Sulfur Cathode Chemistry and Its Effects on Cell Performance

Perdue, Brian Robert ; Height, Hannah E. ; McBrayer, Josefine ; [et al.]

The Electrochemical Society ; 2016

In: ECS Meeting Abstracts Vol. MA2016-01, No. 2 ( 2016-04-01), p. 373-373

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In: ECS Meeting Abstracts, The Electrochemical Society, Vol. MA2016-01, No. 2 ( 2016-04-01), p. 373-373

Abstract: In recent years, tremendous effort has been invested into researching energy storage chemistries that will replace lithium ion. New strategies with higher capacities must be considered, such as a chemical conversion cathode. The lithium sulfur chemistry is a promising candidate as it uses earth abundant, inexpensive, high capacity sulfur as its cathode. Conversion cathodes like sulfur are much more challenging as a secondary battery, and behave differently than intercalation cathodes. Because of this, different design criteria must be applied to conversion cathodes to maximize power and capacity. The interplay of conductive network, insulating active cathode, and binder all give rise to differences in performance for the dissolution and precipitation of the cathode material. This work attempts to identify key design criteria for sulfur cathodes by systemically varying the basic components of cathode chemistry and structure. A matrix of ~110 different cathode formulations were fabricated by varying conducting carbon, % active material, binder system, and sulfur loading. Performance of these cathodes was evaluated by means of 2032 coin cell tests under constant current and pulsed loads. First discharge capacity, capacity retention, coulombic efficiency, impedance, cathode surface area, and cathode porosity are utilized to gauge the effectiveness of the cathode and explain trends observed in cycling tests. The effects of cathode rheology on porosity surface area and overall cathode utilization was also investigated. Observed differences in performance between different electronically conductive elements and different cathode support elements were observed, with nuanced changes in morphology resulting in significant performance changes. Sandia National Laboratories is a multi-program laboratory managed and operated by Sandia Corporation, a wholly owned subsidiary of Lockheed Martin Corporation, for the U.S. Department of Energy’s National Nuclear Security Administration under contract DE-AC04-94AL85000. Figure 1

Type of Medium: Online Resource

ISSN: 2151-2043

URL: Article

DOI: 10.1149/MA2016-01/2/373

Language: Unknown

Publisher: The Electrochemical Society

Publication Date: 2016

detail.hit.zdb_id: 2438749-6

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Polysulfide Speciation in the Bulk Electrolyte of a Lithium Sulfur Battery

McBrayer, Josefine D. ; Beechem, Thomas E. ; Perdue, Brian R. ; [et al.]

The Electrochemical Society ; 2018

In: Journal of The Electrochemical Society Vol. 165, No. 5 ( 2018), p. A876-A881

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In: Journal of The Electrochemical Society, The Electrochemical Society, Vol. 165, No. 5 ( 2018), p. A876-A881

Type of Medium: Online Resource

ISSN: 0013-4651 , 1945-7111

URL: Article

DOI: 10.1149/2.0441805jes

RVK:

VA 4000

Language: English

Publisher: The Electrochemical Society

Publication Date: 2018

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Study of Polysulfide Speciation in Lithium Sulfur Batteries Using in Situ Confocal Raman Microscopy

McBrayer, Josefine ; Beechem, Thomas E. ; Perdue, Brian Robert ; [et al.]

The Electrochemical Society ; 2017

In: ECS Meeting Abstracts Vol. MA2017-01, No. 5 ( 2017-04-15), p. 512-512

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In: ECS Meeting Abstracts, The Electrochemical Society, Vol. MA2017-01, No. 5 ( 2017-04-15), p. 512-512

Abstract: Lithium sulfur (Li-S) batteries are a promising option for high energy density applications, such as electric vehicles and grid storage. In addition to a high theoretical specific energy, the Li-S system also boasts a lower cost and the use of relatively nontoxic, abundant materials compared to current lithium ion batteries. However, soluble, mobile polysulfide intermediates in the electrolyte lead to a polysulfide shuttling mechanism resulting in damage to the anode, loss of active material, and diminished cyclability. A better understanding of the polysulfide speciation as a function of depth of discharge is warranted to identify means to mitigate the polysulfide shuttle. In response, polysulfide speciation is examined, under relevant conditions, in an operational coin cell, at varying states of charge and position, using in situ confocal Raman microscopy. Specifically, a spectroscopic 2032 coin cell was designed for use in in situ experiments while maintaining a representative environment for discharge. The coin cell consisted of a carbon-sulfur cathode, lithium metal anode, and 1:1 1,2-dimethoxyethane to 1,3-dioxolane with 1M LiTFSI and 0.25M LiNO 3 electrolyte. To aid in comparison, polysulfide standards were synthesized and investigated using electrospray ionization-mass spectroscopy (ESI-MS). Raman and ESI-MS were utilized to map polysulfide speciation and relative abundances along the discharge curve. The electrolyte within the cell was probed as a function of position within the cell to determine the spatial distribution of differing polysulfide species. Challenges associated with performing Raman spectroscopy within this environment, to differentiate the varying polysulfide species in solution, were also investigated. Sandia National Laboratories is a multi-program laboratory managed and operated by Sandia Corporation, a wholly owned subsidiary of Lockheed Martin Corporation, for the U.S. Department of Energy’s National Nuclear Security Administration under contract DE-AC04-94AL85000. Figure 1

Type of Medium: Online Resource

ISSN: 2151-2043

URL: Article

DOI: 10.1149/MA2017-01/5/512

Language: Unknown

Publisher: The Electrochemical Society

Publication Date: 2017

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