(R)-(-)-Epichlorohydrin CAS 51594-55-9 Assay ≥99.0% (GC) e.e ≥99.0% (GC) High Purity
Manufacturer Supply with High Purity and Stable Quality
Epichlorohydrin CAS 106-89-8
(R)-(-)-Epichlorohydrin CAS 51594-55-9
(S)-(+)-Epichlorohydrin CAS 67843-74-7
Chiral Compounds, High Quality, Commercial Production
Chemical Name | (R)-(-)-Epichlorohydrin |
Synonyms | (R)-Epichlorohydrin; (R)-1-Chloro-2,3-epoxypropane; (R)-Chloromethyloxirane; (R)-3-Chloropropylene Oxide; |
CAS Number | 51594-55-9 |
CAT Number | RF-CC202 |
Stock Status | In Stock, Production Scale Up to Tons |
Molecular Formula | C3H5ClO |
Molecular Weight | 92.52 |
Density | 1.180 g/mL at 20℃ (lit.) |
Boiling Point | 116℃ |
Flash Point | 31℃ |
Refractive Index | 1.44 |
Brand | Ruifu Chemical |
Item | Specifications |
Appearance | Colorless Clear Liquid |
Assay / Analysis Method | ≥99.0% |
Enantiomeric Excess | e.e ≥99.0% (GC) |
1.3-Dichloro-2-Propanol | ≤0.50% |
Moisture (K.F) | ≤0.50% |
Chroma (Pt-Co) Hazen | ≤30 |
Test Standard | Enterprise Standard |
Usage | Chiral Compounds; Pharmaceutical Intermediates |
Package: Bottle, Barrel, 25kg/Barrel, or according to customer's requirement.
Storage Condition: Store in sealed containers at cool and dry place; Protect from light, moisture and pest infestation.
Shanghai Ruifu Chemical Co., Ltd. is the leading manufacturer and supplier of (R)-(-)-Epichlorohydrin (CAS: 51594-55-9) with high quality, it belongs to pharmaceutical intermediate and can be used for the synthesis of chiral intermediates and chiral drugs.
Shanghai Ruifu Chemical Co., Ltd. plays an important role in the chiral chemistry, the company is committed to the production of chiral compounds. Our products are widely praised by customers.
(R)-(-)-Epichlorohydrin (CAS: 51594-55-9) is used in the synthesis of chiral morpholines and dioxanes via a Mitsunobu diol-cyclization. Chiral building block in the enantioselective synthesis of trans-2,4-disubstituted piperidines. (R)-(-)-Epichlorohydrin is a building block for the synthesis of a key intermediate in the synthesis of stable PGI2 analogue UT-15.