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930938

Sigma-Aldrich

Lithium nitrate

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battery grade, 99.999% trace metals basis

Synonyme(s) :

Lithium salt of nitric acid

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About This Item

Formule linéaire :
LiNO3
Numéro CAS:
Poids moléculaire :
68.95
Numéro MDL:
Code UNSPSC :
12352302
Nomenclature NACRES :
NA.21

Qualité

battery grade

Niveau de qualité

Pureté

99.999% trace metals basis

Forme

powder

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Impuretés

≤15 ppm (trace metals analysis)

Pf

264 °C (lit.)

Solubilité

soluble (H2O: highly soluble(lit.); alcohols: soluble(lit.); acetone: soluble(lit.))

Application(s)

battery manufacturing

Autre catégorie plus écologique

Chaîne SMILES 

[Li+].[O-][N+]([O-])=O

InChI

1S/Li.NO3/c;2-1(3)4/q+1;-1

Clé InChI

IIPYXGDZVMZOAP-UHFFFAOYSA-N

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Description générale

Lithium nitrate is a white, crystalline salt that is soluble in water, ethanol, methanol, pyridine, ammonia, and acetone. Importantly, it is also highly soluble up to 5 wt% in ether-based solvents such as dimethoxyethane (DME) and 1,3-dioxolane (DOL), but only soluble up to 1 wt% in carbonate-based solvents like ethylene carbonate (EC) and diethtyl carbonate (DEC).
Lithium nitrate is produced by reacting nitric acid and lithium carbonate, which evolves carbon dioxide and water. The resulting material is purified and dried.
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Application

Researchers and manufacturers use lithium nitrate in the synthesis of many lithium compounds. Our 99.999% lithium nitrate is well-suited as a reagent for solid-state syntheses of lithium metal oxides, especially where purity is of high importance, for example, when making products whose fundamental properties are under investigation.
Our 99.999% lithium nitrate is also well-suited for use as an additive to electrolytes in lithium-sulfur batteries and lithium metal batteries. Lithium nitrate can passivate the surface of lithium metal and suppress the redox shuttle of the dissolved lithium polysulfides on the lithium anode. In one study, the addition of 0.3 M LiNO3 nearly doubled the gravimetric capacity of lithium-sulfide batteries. Another study found that the dissolution of 1 to 5 wt% LiNO3 to the electrolyte suppressed growth of lithium dendrites and extended cycle lifetimes. Similarly beneficial effects of lithium nitrate as an additive have been observed with Li2S cathodes, carbon nanofiber-encapsulated sulfur cathodes, cobalt sulfide (Co3S4) cathodes, and polyacrylonitrile-sulfur composite cathodes. Even lithium metal anodes with LiNi0.8Co0.15Al0.05O2 (NCA) cathodes with LiNO3 added to the electrolyte showed higher coulombic efficiencies and suppressed dendrite formation compared to the electrolyte without LiNO3.

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Mention d'avertissement

Warning

Mentions de danger

Classification des risques

Acute Tox. 4 Oral - Eye Irrit. 2 - Ox. Sol. 3

Code de la classe de stockage

5.1B - Oxidizing hazardous materials

Classe de danger pour l'eau (WGK)

WGK 1

Point d'éclair (°F)

Not applicable

Point d'éclair (°C)

Not applicable


Certificats d'analyse (COA)

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Consulter la Bibliothèque de documents

Yuan Yang et al.
Journal of the American Chemical Society, 134(37), 15387-15394 (2012-08-23)
Li(2)S is a high-capacity cathode material for lithium metal-free rechargeable batteries. It has a theoretical capacity of 1166 mAh/g, which is nearly 1 order of magnitude higher than traditional metal oxides/phosphates cathodes. However, Li(2)S is usually considered to be electrochemically
Role of LiNO3 in rechargeable lithium/sulfur battery.
Zhang S, et al.
Electrochimica Acta, 70, 344-348 (2012)
Weiyang Li et al.
Nature communications, 6, 7436-7436 (2015-06-18)
Lithium metal has shown great promise as an anode material for high-energy storage systems, owing to its high theoretical specific capacity and low negative electrochemical potential. Unfortunately, uncontrolled dendritic and mossy lithium growth, as well as electrolyte decomposition inherent in
On the Surface Chemical Aspects of Very High Energy Density, Rechargeable Li?Sulfur Batteries.
Aurbach D, et al.
Journal of the Electrochemical Society, 156, A694-A694 (2009)
Tao Chen et al.
Journal of the American Chemical Society, 139(36), 12710-12715 (2017-08-25)
Lithium-sulfur batteries (Li-S) have attracted soaring attention due to the particularly high energy density for advanced energy storage system. However, the practical application of Li-S batteries still faces multiple challenges, including the shuttle effect of intermediate polysulfides, the low conductivity

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