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Key Documents

1.00066

Supelco

Acetic acid (glacial)

100%, Suprapur®

Synonyme(s) :

Acide acétique glacial

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About This Item

Formule linéaire :
CH3CO2H
Numéro CAS:
Poids moléculaire :
60.05
Numéro Beilstein :
506007
Numéro MDL:
Code UNSPSC :
12352106
Numéro de classement CE :
200-580-7
Nomenclature NACRES :
NA.21

product name

Acide acétique, Suprapur®

Qualité

for inorganic trace analysis

Niveau de qualité

Densité de vapeur

2.07 (vs air)

Pression de vapeur

15.4 hPa ( 20 °C)

Pureté

≥99.8% (acidimetric)
100%

Forme

liquid

Température d'inflammation spontanée

485 °C
800 °F

Puissance

3310 mg/kg LD50, oral (Rat)

Limite d'explosivité

16 %, 92 °F
4 %, 59 °F

Technique(s)

LC/MS: suitable

Indice de réfraction

n20/D 1.371 (lit.)

pH

2.5 (20 °C, 50 g/L in H2O)

kinematic viscosity

1.17 cSt(20 °C)

Point d'ébullition

117-118 °C (lit.)

Pf

16.2 °C (lit.)

Température de transition

flash point 39 °C

Solubilité

soluble 602.9 g/L

Densité

1.04 g/mL at 25 °C (lit.)

Traces d'anions

chloride (Cl-): ≤100 ppb
phosphate (PO43-): ≤50 ppb
sulfate (SO42-): ≤400 ppb

Traces de cations

Ag: ≤1.0 ppb
Al: ≤2.0 ppb
As: ≤0.5 ppb
Au: ≤0.5 ppb
B: ≤0.5 ppb
Ba: ≤0.5 ppb
Be: ≤0.5 ppb
Bi: ≤0.5 ppb
Ca: ≤20.0 ppb
Cd: ≤0.5 ppb
Co: ≤0.5 ppb
Cr: ≤5.0 ppb
Cu: ≤1.0 ppb
Fe: ≤20.0 ppb
Ga: ≤0.5 ppb
Ge: ≤0.5 ppb
Hg: ≤2.0 ppb
In: ≤0.5 ppb
K: ≤2.0 ppb
Li: ≤0.5 ppb
Mg: ≤2.0 ppb
Mn: ≤1.0 ppb
Mo: ≤1.0 ppb
Na: ≤5.0 ppb
Ni: ≤5.0 ppb
Pb: ≤2.0 ppb
Pt: ≤0.5 ppb
Sb: ≤0.5 ppb
Sn: ≤0.5 ppb
Sr: ≤0.5 ppb
Ti: ≤0.5 ppb
Tl: ≤0.5 ppb
V: ≤0.5 ppb
Zn: ≤2.0 ppb
Zr: ≤0.5 ppb

Chaîne SMILES 

[F2C(F2C)13F3C]C(O)=O

Température de stockage

2-8°C

InChI

1S/C2H4O2/c1-2(3)4/h1H3,(H,3,4)

Clé InChI

QTBSBXVTEAMEQO-UHFFFAOYSA-N

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Application


  • Screening Ultra-Stable (Phenazine)dioxyalkanocic Acids with Varied Water-Solubilizing Chain Lengths for High-Capacity Aqueous Redox Flow Batteries: This study explores the application of phenazine-based compounds, where acetic acid′s derivatives act as soluble mediators in redox flow batteries, offering insights into optimizing battery electrolytes for enhanced capacity and stability (Liu et al., 2024).

  • Ambient Aqueous Synthesis of Imine-Linked Covalent Organic Frameworks (COFs) and Fabrication of Freestanding Cellulose Nanofiber@COF Nanopapers: This research demonstrates the use of acetic acid in the eco-friendly synthesis of imine-linked covalent organic frameworks, highlighting its role in promoting green chemistry practices within material science (Kong et al., 2024).

  • Green, Safe, and Reliable Synthesis of Bimetallic MOF-808 Nanozymes With Enhanced Aqueous Stability and Reactivity for Biological Applications: Glacial acetic acid is used to modulate the pH during the synthesis of MOF-808 nanozymes, improving their biological compatibility and stability for potential therapeutic applications (Simms et al., 2024).

  • Dual-Functional Manganese-Doped ZnO-MOF Hybrid Material with Enhanced Hydrolytic Stability: In this study, acetic acid is integral in the synthesis of a ZnO-based metal-organic framework, enhancing its hydrolytic stability and functionality as a sensor for environmental monitoring (Asadevi et al., 2023).

  • Extraction of Nucleotides from Dietary Supplements by Newly Synthesized Adsorbents: The research utilizes acetic acid in the extraction process of nucleotides from dietary supplements, showcasing its efficacy in increasing the yield and purity of extracted compounds (Studzińska et al., 2023).

Remarque sur l'analyse

Assay (acidimetric): ≥ 99.8 %
Colour: ≤ 5 Hazen
Acetaldehyde: ≤ 2 ppm
Solidification temperature: ≥ 16.3 °C
Chloride (Cl): ≤ 100 ppb
Phosphate (PO₄): ≤ 50 ppb
Sulphate (SO₄): ≤ 400 ppb
Ag (Silver): ≤ 1.0 ppb
Al (Aluminium): ≤ 2.0 ppb
As (Arsenic): ≤ 0.5 ppb
Au (Gold): ≤ 0.5 ppb
B (Boron): ≤ 0.5 ppb
Ba (Barium): ≤ 0.5 ppb
Be (Beryllium): ≤ 0.5 ppb
Bi (Bismuth): ≤ 0.5 ppb
Ca (Calcium): ≤ 20.0 ppb
Cd (Cadmium): ≤ 0.5 ppb
Co (Cobalt): ≤ 0.5 ppb
Cr (Chromium): ≤ 5.0 ppb
Cu (Copper): ≤ 1.0 ppb
Fe (Iron): ≤ 20.0 ppb
Ga (Gallium): ≤ 0.5 ppb
Ge (Germanium): ≤ 0.5 ppb
Hg (Mercury): ≤ 2.0 ppb
In (Indium): ≤ 0.5 ppb
K (Potassium): ≤ 2.0 ppb
Li (Lithium): ≤ 0.5 ppb
Mg (Magnesium): ≤ 2.0 ppb
Mn (Manganese): ≤ 1.0 ppb
Mo (Molybdenum): ≤ 1.0 ppb
Na (Sodium): ≤ 5.0 ppb
Ni (Nickel): ≤ 5.0 ppb
Pb (Lead): ≤ 2.0 ppb
Pt (Platinum): ≤ 0.5 ppb
Sb (Antimony): ≤ 0.5 ppb
Sn (Tin): ≤ 0.5 ppb
Sr (Strontium): ≤ 0.5 ppb
Ti (Titanium): ≤ 0.5 ppb
Tl (Thallium): ≤ 0.5 ppb
V (Vanadium): ≤ 0.5 ppb
Zn (Zinc): ≤ 2.0 ppb
Zr (Zirconium): ≤ 0.5 ppb
Substances reducing potassium dichromate: ≤ 30 ppm
Substances reducing potassium permanganate: ≤ 20 ppm
Residue on ignition (as sulphate): ≤ 2 ppm
The actual values are subject to unavoidable systematic
variations in this concentration range.

Informations légales

SUPRAPUR is a registered trademark of Merck KGaA, Darmstadt, Germany

Pictogrammes

FlameCorrosion

Mention d'avertissement

Danger

Mentions de danger

Classification des risques

Eye Dam. 1 - Flam. Liq. 3 - Skin Corr. 1A

Code de la classe de stockage

3 - Flammable liquids

Classe de danger pour l'eau (WGK)

WGK 1

Point d'éclair (°F)

102.2 °F

Point d'éclair (°C)

39 °C


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