Acrolein

Base Information Edit

Chemical Name:Acrolein
CAS No.:107-02-8
Deprecated CAS:25314-61-8,2360801-60-9
Molecular Formula:C3H4O
Molecular Weight:56.0642
Hs Code.:29121900
European Community (EC) Number:203-453-4
ICSC Number:0090
NSC Number:8819
UN Number:1092
UNII:7864XYD3JJ
DSSTox Substance ID:DTXSID5020023,DTXSID50526220
Nikkaji Number:J4.045B,J831.299K
Wikipedia:Acrolein
Wikidata:Q342790
Pharos Ligand ID:Z3ZG1TV59ZXX
Metabolomics Workbench ID:50052
ChEMBL ID:CHEMBL721
Mol file:107-02-8.mol

Synonyms:2 Propenal;2-Propenal;Acraldehyde;Acrolein;Acrylaldehyde;Acrylic Aldehyde;Aldehyde, Acrylic;Aldehyde, Allyl;Aldehyde, Ethylene;Allyl Aldehyde;Aqualin;Ethylene Aldehyde

Suppliers and Price of Acrolein

Supply Marketing:Edit

Business phase:: The product has achieved commercial mass production^*data from LookChem market partment

Manufacturers and distributors:

Manufacture/Brand
Chemicals and raw materials
Packaging
price

TRC
Acrolein(stabilizedwithHydroquinone)
1g
$ 1115.00

Sigma-Aldrich
Acrolein analytical standard
1ml
$ 93.60

Sigma-Aldrich
Acrolein analytical standard
4s8501
$ 38.60

Alichem
4-Methoxy-2-nitrocinnamicacid
1g
$ 1564.50

Alichem
2-Bromo-3-hydroxybenzylamine
1g
$ 1445.30

Alichem
2-Bromo-3-hydroxybenzylamine
500mg
$ 806.85

Alichem
4-Methoxy-2-nitrocinnamicacid
500mg
$ 790.55

Alichem
2-Bromo-3-hydroxybenzylamine
250mg
$ 504.00

AHH
4-methoxybenzene-1,3-diol 97%
5g
$ 320.00

Total 2 raw suppliers

Chemical Property of Acrolein Edit

Chemical Property:

Appearance/Colour:colourless to slightly yellow liquid
Vapor Pressure:4.05 psi ( 20 °C)
Melting Point:-87 °C(lit.)
Refractive Index:n20/D 1.403(lit.)
Boiling Point:52.8 °C at 760 mmHg
Flash Point:-2 °F
PSA：17.07000
Density:0.795 g/cm³
LogP:0.37130
Storage Temp.:2-8°C
Sensitive.:Air & Light Sensitive
Solubility.:H2O: soluble2 to 3 parts
Water Solubility.:Soluble. 21.25 g/100 mL
XLogP3:0
Hydrogen Bond Donor Count:0
Hydrogen Bond Acceptor Count:1
Rotatable Bond Count:1
Exact Mass:56.026214747
Heavy Atom Count:4
Complexity:30.3
Transport DOT Label:Poison Inhalation Hazard Flammable Liquid

Purity/Quality:

99%min ^*data from raw suppliers

Acrolein(stabilizedwithHydroquinone) ^*data from reagent suppliers

Safty Information:

Pictogram(s): F,T+,N,T
Hazard Codes:F,T+,N,T
Statements: 11-24/25-26-34-50-26/28-24
Safety Statements: 23-26-28-36/37/39-45-61-16

MSDS Files:

SDS file from LookChem

Total 1 MSDS from other Authors

Useful:

Chemical Classes:Toxic Gases & Vapors -> Other Toxic Gases & Vapors
Canonical SMILES:C=CC=O
Inhalation Risk:A harmful contamination of the air can be reached very quickly on evaporation of this substance at 20 °C.
Effects of Short Term Exposure:Lachrymation. The substance is severely irritating to the eyes, skin and respiratory tract. Inhalation of high concentrations may cause lung oedema. The effects may be delayed. Medical observation is indicated.
Uses Acrolein (acraldehyde, acrylaldehyde, acrylic aldehyde, allyl aldehyde, propenal, 2-propenal) is another important aldehyde. It is used as a chemical intermediate in many industrial synthetic processes, including in the production of acrylic acid and allyl alcohol. Acrolein may also be used as a biocide and in the production of perfumes and colloidal metals. Residue from industrial emissions and the burning of wood and other organic substrates will contain traces of acrolein. Acrolein is also a constituent of diesel exhaust and photochemical smog. It is also formed during the pyrolysis of cotton and polyethylene and found in cigarette smoke. Much of the human toxicity data is obtained from the formation of acrolein in vivo as a metabolite of the anticancer drug, cyclophosphamide. Acrolein is used as an antimicrobial agentto prevent the growth of microbes againstplugging and corrosion, to control the aquaticweed and algae, in slime control in papermanufacturing, as a tissue fixative, and inleather tanning.Because of its widespread use it occursin the environment—in air and water. Afterformaldehyde it is the second most abundantaldehyde, constituting 5% of total aldehydesin air. Acrolein is one of the toxic gasesproduced in a wood or building fire or whenpolyethylene or other polymer substancesburn (Morikawa 1988; Morikawa and Yanai1986). Firefighters are at greater risk ofexposure to this gas. Acrolein is used in the etherification of food starch up to 0.6% and for the esterification and etherification of food starch up to 0.3% with vinyl acetate up to 7.5%. Acrolein is used in the synthesis of acrylic acid. manufacture of colloidal forms of metals; making plastics, perfumes; warning agent in methyl chloride refrigerant. Has been used in military poison gas mixtures. Used in organic syntheses. Aquatic herbicide. Contact herbicide and algicide; injected in water for the control of submerged and floating weeds in irrigation ditches and canals
Description The first time that acrolein was produced as a commercial product was in the 1930s through the vapor-phase condensation of acetaldehyde and formaldehyde. Another method was developed in the 1940s, which involved the vapor-phase oxidation of propylene. In the 1960s, some advances were found in propylene oxidation process by the introduction of bismuth molybdate-based catalysis, and that became the primary method used for the commercial production of acrolein. Some bioproducts formed for this reaction are acrylic acid, carbon oxides, acetaldehyde, acetic acid, formaldehyde, and polyacrolein. In World War I, it was used as a chemical weapon (pulmonary irritant and lachrymatory agent). Commercial acrolein contains 95.5% or more of the compound, the main impurities being water (<3.0% by weight) and other carbonyl compounds (<1.5% by weight), mainly propanol and acetone. Hydroquinone is added as an inhibitor of polymerization (0.1–0.25% by weight).
Physical properties Colorless to yellow, clear, watery liquid imparting a very sharp, acrid, pungent, or irritating odor. Odor threshold concentrations reported were 0.11 mg/kg by Guadagni et al. (1963), 0.21 ppmv by Leonardos et al. (1969), and 36 ppbv by Nagata and Takeuchi (1990). In addition, Katz and Talbert (1930) reported an experimental detection odor threshold concentration of 4.1 mg/m3 (1.8 ppmv).

Technology Process of Acrolein

There total 685 articles about Acrolein which guide to synthetic route it. The literature collected by LookChem mainly comes from the sharing of users and the free literature resources found by Internet computing technology. We keep the original model of the professional version of literature to make it easier and faster for users to retrieve and use. At the same time, we analyze and calculate the most feasible synthesis route with the highest yield for your reference as below:

synthetic route:

Reference yield: 1.0%

: 106-99-0,130983-70-9,29406-96-0,9003-17-2
buta-1,3-diene

: 107-02-8,25068-14-8
acrolein

: 100-50-5,61746-36-9
3-Cyclohexene-1-carboxaldehyde

Guidance literature:: With oxygen; bis(ethylene)rhodium acetylacetonate; In toluene; at 80 ℃; for 1h; under 37503 Torr;
DOI:10.1002/hlca.19830660119