A Study of the Properties of the System Lithium Chlorate-Water. I. Introduction. Ii. Phase Relations

Kraus, Charles A.; Burgess, Wayland M.

doi:10.1021/ja01404a012

Cited by 11 publications

(3 citation statements)

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“…The polymorphism of LiClOs has been a matter of some dispute in the literature. Some workers (29) have claimed the reversible crystallographic changes • ±ß, &^±a at 44.5°and 106.4°, respectively, whereas others (3, 10) have reported but a single crystallographic transition at about 100°. Accordingly, in the present study, DTA patterns of LiClOs on an expanded scale were obtained over the temperature range from ambient to about 180°.…”

Section: Resultsmentioning

confidence: 98%

A Thermoanalytical Study of Lithium Chlorate.

Markowitz¹,

Boryta²,

Stewart³

1964

J. Chem. Eng. Data

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Section: Resultsmentioning

confidence: 98%

A Thermoanalytical Study of Lithium Chlorate.

Markowitz¹,

Boryta²,

Stewart³

1964

J. Chem. Eng. Data

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“…Anhydrous LÍ2SO4 was prepared from J. T. Baker reagent LÍ2CO3 which had been recrystallized by the method of Kraus and Burgess. 14 The final product was heated in platinum in a muffle furnace at 550-600°to remove the last traces of acid and water.…”

Section: Methodsmentioning

confidence: 99%

Physical Properties of cis-1-Cyano-1,3-butadiene

Wise¹

1954

J. Am. Chem. Soc.

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“…Using this process the "dried" lithium chlorate melted between 126 ~ and 128~ According to the chlorate-water phase diagram proposed by Krauss et al (8), a melting point of lithium chlorate between 126 ~ and 128~ corresponds to a water content of less than 0.5%. Lithium chlorate is known to be extremely hygroscopic (8). As long as the water content in the lithium chlorate was 0.5% or less, no gross effects associated with water were observed.…”

Section: J E[ectrochem Soc: Electrochemical Science and Technologymentioning

confidence: 99%

The Electrochemistry of Molten Lithium Chlorate and Its Possible Use with Lithium in a Battery

Wang

Bennion

1983

J. Electrochem. Soc.

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Lithium chlorate, LiC10~, has reported melting points of 127.6 ~ and 129oC. The specific conductance of molten lithium chlorate at 130~ is relatively high compared to common aqueous electrolytic solutions at room temperature. Therefore, lithium chlorate offers the chance to operate a new lithium battery system at a temperature between 130 ~ and 150~ It was found experimentally that lithium chlorate is stable in the potential range between 3.2 and 4.6V relative to an Li reference electrode. An Li-CI~ secondary battery system was observed to have an open-circuit potential 0f 3.97V, making an Li-C12 secondary battery in molten lithium chlorate possible, in principle. A lithium-lithium chlorate primary battery system is also possible. Lithium negative electrode performance was found to be hindered by corrosion and possiblerunaway reactions with LiC103. Dendrite formation on charging was observed. The solubility of Li20 and LiC1 in LiCIO3 at 145~ is 7.5 • 10 -5 and 1.78 x 10 -3 mol/cm ~, respectively. The diffusion Coefficients are 1.5 • t0 -~ for Li20 and 3.4 • 10 -7 cm2/sec for LiC1. Platinum appeared to be an inert positive electrode for chlorate, chlorine, or oxygen reactions for runs on the order of several hours. Nickel shows an active-passive behavior which is complex. Nickel appears suitable for use in a primary cell for the cathodic discharge of LiC103, but it does not appear suitable for a C12 or O2 electrode.

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A Study of the Properties of the System Lithium Chlorate-Water. I. Introduction. Ii. Phase Relations

Abstract: The oxide so prepared is shown to contain 10.87% of oxygen as compared with the calculated percentage, 10.85, of oxygen in auric oxide. Qualitative evidence is also adduced to show that the product is pure within the limits of experimental error.

Cited by 11 publications

References 0 publications

A Thermoanalytical Study of Lithium Chlorate.

A Thermoanalytical Study of Lithium Chlorate.

Physical Properties of cis-1-Cyano-1,3-butadiene

The Electrochemistry of Molten Lithium Chlorate and Its Possible Use with Lithium in a Battery

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