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Sigma-Aldrich

Sodium perchlorate

anhydrous, ≥99.9% trace metals basis

Synonym(e):

Sodium Perchlorate, Hyperchloric acid sodium salt

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About This Item

Empirische Formel (Hill-System):
ClNaO4
CAS-Nummer:
7601-89-0
Molekulargewicht:
122.44
MDL-Nummer:
MFCD00003480
UNSPSC-Code:
12352302
NACRES:
NA.23
Assay:
≥99.9% trace metals basis
Qualität:
anhydrous
battery grade
Form:
powder
Löslichkeit:
H2O: 209 g/dL at 15 °C

Qualität

anhydrous
battery grade

Qualitätsniveau

100

Assay

≥99.9% trace metals basis

Form

powder

Verunreinigungen

≤1000 ppm (trace metals analysis)

pH-Wert

6.0-8.0 (25 °C, 5%, aq.sol.)

mp (Schmelzpunkt)

482 °C

Löslichkeit

H2O: 209 g/dL at 15 °C

Anionenspuren

chloride (Cl-): ≤30 ppm
sulfate (SO42-): ≤20 ppm

Kationenspuren

Fe: ≤5 ppm
K: ≤500 ppm

Anwendung(en)

battery manufacturing

SMILES String

[Na+].[Cl](=O)(=O)(=O)[O-]

InChI

1S/ClHO4.Na/c2-1(3,4)5;/h(H,2,3,4,5);/q;+1/p-1

InChIKey

BAZAXWOYCMUHIX-UHFFFAOYSA-M

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Allgemeine Beschreibung

Anhydrous sodium perchlorate is a white crystalline solid. It is hygroscopic and absorbs water to form its monohydrate. Anhydrous sodium perchlorate is highly soluble in water, and soluble in a range of polar organic solvents such as methanol, ethanol, acetone, carbonates (including ethylene carbonate, dimethyl carbonate, propylene carbonate, and diethyl carbonate), and ethers (including dimethoxyethane, tetrahydrofuran, and triethylene glycol dimethyl ether). It is insoluble in benzene, chloroform, and toluene.

Anwendung

The major application of anhydrous sodium perchlorate is as an electrolyte in sodium-ion batteries. It is popular because of its solubility in ethers and carbonates, its wide electrochemical stability window (e.g. from 0 to 5 V vs Na+/Na in propylene carbonate, triglyme, or diethylcarbonate)[1], and its compatibility with a wide range of materials. It has been used in batteries with hard-carbon anodes[2], mesoporous carbon anodes[3], sodium cobalt oxide cathodes (NaxCoO2)[4], sodium vanadium oxide cathodes (NaxVO2)[5], titanium dioxide cathodes[6], and emerging materials like high-entropy layered oxide cathodes[7].

Verpackung

10 g in glass bottle
25 g in glass bottle

Signalwort

Danger

Gefahreneinstufungen

Acute Tox. 4 Oral - Eye Irrit. 2 - Ox. Sol. 1 - STOT RE 2

Zielorgane

Thyroid

Lagerklassenschlüssel

5.1A - Strongly oxidizing hazardous materials

WGK

WGK 1

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Analysenzertifikate (COA)

Lot/Batch Number
MKCV8983
MKCW4405
MKCT1079

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Die Dokumentenbibliothek aufrufen

In search of an optimized electrolyte for Na-ion batteries
Ponrouch, A., et al.
Energy & Environmental Science, 5, 8572-8583 (2012)
Electrochemical Na Insertion and Solid Electrolyte Interphase for Hard-Carbon Electrodes and Application to Na-Ion Batteries.
Komaba, S., et al.
Advances in Functional Materials, 21, 3859-3867 (2011)
Gianluca Longoni et al.
Nano letters, 17(2), 992-1000 (2016-12-28)
Rechargeable sodium-ion batteries are becoming a viable alternative to lithium-based technology in energy storage strategies, due to the wide abundance of sodium raw material. In the past decade, this has generated a boom of research interest in such systems. Notwithstanding
Chenglong Zhao et al.
Angewandte Chemie (International ed. in English), 59(1), 264-269 (2019-10-18)
Material innovation on high-performance Na-ion cathodes and the corresponding understanding of structural chemistry still remain a challenge. Herein, we report a new concept of high-entropy strategy to design layered oxide cathodes for Na-ion batteries. An example of layered O3-type NaNi0.12
Jia Ding et al.
ACS nano, 7(12), 11004-11015 (2013-11-07)
We demonstrate that peat moss, a wild plant that covers 3% of the earth's surface, serves as an ideal precursor to create sodium ion battery (NIB) anodes with some of the most attractive electrochemical properties ever reported for carbonaceous materials.
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