1,2-Propanediol monomethyl ether acetate, 99%, stab. with 50ppm BHT
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1,2-Propanediol monomethyl ether acetate, 99%, stab. with 50ppm BHT
1,2-Propanediol monomethyl ether acetate, 99%, stab. with 50ppm BHT
1,2-Propanediol monomethyl ether acetate, 99%, stab. with 50ppm BHT
Thermo Scientific Chemicals

1,2-Propanediol monomethyl ether acetate, 99%, stab. with 50ppm BHT

CAS: 108-65-6 | C6H12O3 | 132.159 g/mol
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数量:
100 mL
1000 mL
2500 mL
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製品番号(カタログ番号) L15459.0F
または、製品番号L15459-0F
価格(JPY)
-
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数量:
2500 mL
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化学物質識別子
CAS108-65-6
IUPAC Name1-methoxypropan-2-yl acetate
Molecular FormulaC6H12O3
InChI KeyLLHKCFNBLRBOGN-UHFFFAOYNA-N
SMILESCOCC(C)OC(C)=O
さらに表示
仕様Specification Sheetスペックシート
FormLiquid
Identification (FTIR)Conforms
Appearance (Color)Clear colorless
Assay (GC)≥98.5%
Water Content (Karl Fischer Titration)<0.1%
さらに表示
1,2-Propanediol monomethyl ether acetate is used as a solvent for paints, inks, lacquers, varnishes, cleaners and coatings. It is also used as a solvent for degreasing circuit boards and in food contact applications. Further, it is used in photoresist formulations in the semiconductor industry.

This Thermo Scientific Chemicals brand product was originally part of the Alfa Aesar product portfolio. Some documentation and label information may refer to the legacy brand. The original Alfa Aesar product / item code or SKU reference has not changed as a part of the brand transition to Thermo Scientific Chemicals.

Applications
1,2-Propanediol monomethyl ether acetate is used as a solvent for paints, inks, lacquers, varnishes, cleaners and coatings. It is also used as a solvent for degreasing circuit boards and in food contact applications. Further, it is used in photoresist formulations in the semiconductor industry.

Solubility
Miscible with water.

Notes
Moisture sensitive. Incompatible with strong oxidizing agents, strong acids, strong bases, reducing agents, acids and alkalis.
RUO – Research Use Only

General References:

  1. Baysal, G.; Önder, S.; Göcek, İ.; Trabzon, L.; Kızıl, H.; Kök, F. N.; Kayaoğlu, B. K. Design and fabrication of a new nonwoven-textile based platform for biosensor construction. Sens. Actuators, B 2015, 208, 475-484.
  2. Charlton, M. R.; Dylla, A. G.; Stevenson, K. J. Direct Evidence of a Chemical Conversion Mechanism of Atomic-Layer-Deposited TiO2 Anodes During Lithiation Using LiPF6 Salt. J. Phys. Chem. 2015, 119 (51), 28285-28291.