Cinnamonitrile

Cinnamonitrile Basic information
Flavors Chemical properties Antibacterial effects Application Preparation
Product Name:Cinnamonitrile
Synonyms:(E)-Cinnamonitrile;3-phenyl-,(E)-2-Propenenitrile;3-trans-phenyl-acrylonitrile;Cinnamonitrile c&t;Cinnamonitrile, (E)-;trans-3-Phenylpropenonitrile;trans-beta-Phenylacrylonitrile;(2E)-3-Phenyl-2-propenenitrile
CAS:1885-38-7
MF:C9H7N
MW:129.16
EINECS:217-552-5
Product Categories:Building Blocks;C8 to C9;Chemical Synthesis;Cyanides/Nitriles;Nitrogen Compounds;Organic Building Blocks;Miscellaneous;Heterocyclic Compounds;Aromatics;Inhibitors
Mol File:1885-38-7.mol
Cinnamonitrile Structure
Cinnamonitrile Chemical Properties
Melting point 18-20 °C (lit.)
Boiling point 254-255 °C (lit.)
density 1.028 g/mL at 25 °C (lit.)
vapor pressure 1.2Pa at 20℃
refractive index n20/D 1.601(lit.)
Fp >230 °F
storage temp. Sealed in dry,Room Temperature
solubility soluble in Alcohol
form Liquid
color Clear colorless to yellow
Odorat 10.00 % in dipropylene glycol. nitrile cinnamon cassia deep cumin
Odor Typespicy
Water Solubility insoluble
Sensitive Air & Light Sensitive
BRN 1209546
InChIKeyZWKNLRXFUTWSOY-QPJJXVBHSA-N
LogP1.96 at 25℃
CAS DataBase Reference1885-38-7(CAS DataBase Reference)
NIST Chemistry Reference2-Propenenitrile, 3-phenyl-, (E)-(1885-38-7)
EPA Substance Registry System2-Propenenitrile, 3-phenyl-, (2E)- (1885-38-7)
Safety Information
Hazard Codes Xi
Risk Statements 36/37/38
Safety Statements 26-36
RIDADR 3276
WGK Germany 3
RTECS UD1440000
9
TSCA Yes
HS Code 29269095
MSDS Information
ProviderLanguage
E-3-Phenyl-2-propenenitrile English
ACROS English
SigmaAldrich English
ALFA English
Cinnamonitrile Usage And Synthesis
FlavorsCinnamonitrile is also  known as styrene cyanide, is an excellent synthetic spice,it has a strong spicy aroma like cinnamon and floral nuances, colorless or pale yellow viscous liquid, it is chemically stable, light, heat or acid, alkaline etching can not make it change. There are no toxic side effects on the human body, there is no stimulation in contact with skin ,there are no allergic reactions, compared with cinnamic aldehyde, cinnamonitrile has the stronger ability through the hair, the aroma is strong and lasts for a long time, potential   skin irritation and toxicity are smaller than  cinnamic aldehyde,it is the ideal substitute for cinnamon oil and cinnamic aldehyde,it can be used in daily chemical flavor formula,it is mainly used for soap flavor and fragrance detergent formulations, the amount is less than 2%. IFRA has no restrictions. Since cinnamonitrile has a unique chemical structure,it can occur Friedel, addition, reduction, hydrolysis reactions,it is also widely be used  in the pharmaceutical, fine chemical industry  . According to the information provided by RIFM, acute toxicity data of cinnamonitrile: oral LD504.15g/kg (rat), skin test LD50> 5g/kg (rabbit). Cinnamonitrile can be made by condensation of acetonitrile with benzaldehyde in the presence of potassium hydroxide solution  ; or it can be made by the  first transformation of cinnamaldehyde  into oxime, then  by the dehydration following.
Chemical propertiesLight transparent pale yellow liquid with a strong, warm spicy fragrance.
Antibacterial effectsNanjing University Department of Biology and the Institute of Hydrobiology of the Chinese Academy of Sciences teachers measured the inhibitory effects of   plant pathogens Altornaria tenuis Nees and Rhizopus nigricans on their own separate identification , skin addiction germs Epidermophyton floccosum, Trichophytoa gypsoum, Trichophyton rubrum, Microsporum gypseum, as well as 22 kinds of mold (  18 kinds of common food, fruits and other mold rot fungus, four kinds of human shallow filamentous fungus), the results show that  cinnamonitrile has a high nitrile  antimicrobial effect,it has the role of antibiotics, but  it is not an antibiotic,its mold inhibition effect is good, it has broad  antibacterial spectrum , and anthelmintic effect. Experiments show that the breeding of bacteria in the production process needs folic acid to participate in  , cinnamonitrile  structure is similar to PABA, they are competitive in binding with dihydrofolate synthase, which inhibits the activity of  dihydrofolate synthase, impeding dihydrofolate synthesis, thus affecting the synthesis of folic acid, inhibiting bacterial growth propagation; and it can interfere with the synthesis of some bacteria, and the synthesis of the enzyme needed for cell division to inhibit and impact the synthesis of bacterial RNA , which reduces the permeability of the cell membrane thus affects the normal metabolism of bacteria, resulting in death, so bactericidal effect  are more thorough . What is more amazing  is that the human body does not produce Cinnamonitrile  dependence, it can eliminate bacteria tribes, but it will not break the constraints  relationship between bacteria and thus does not produce resistance. Cinnamonitrile  itself is a spice, there are no toxic side effects on the human body, in contact with skin no stimulation, no allergic reactions. Experts said excitedly,that with deepening study of the cinnamonitrile  antibacterial  aspect  , cinnamonitrile is expected to completely replace antibiotics, and become the "Terminator"of antibiotics.
Application
  • Cinnamonitrile  is an extremely stable nitrile spices, much like the natural aroma of cinnamon.
  • For the synthesis of pharmaceuticals, perfumes and electronic chemicals.
PreparationCinnamic aldehyde reacts with hydroxylamine hydrochloride in the presence of pyridine by the addition-elimination reaction to produce aldehyde oxime, then it boils with toluene azeotropic and after dehydration to generate  cinnamonitrile.
Chemical Propertiesclear colourless to yellow liquid
OccurrenceHas apparently not been reported to occur in nature.
UsesThe parent compound whose derivatives can be applied as corrosion inhibitors for API J55 steel.
UsesCinnamonitrile is a parent compound whose derivatives can be applied as corrosion inhibitors for API J55 steel.
PreparationFrom styryl bromide and potassium cyanide (Arctander, 1969).
Synthesis Reference(s)Journal of the American Chemical Society, 81, p. 6340, 1959 DOI: 10.1021/ja01532a069
Tetrahedron Letters, 21, p. 2161, 1980 DOI: 10.1016/S0040-4039(00)78986-6
Toxicity evaluationThe acute oral LD50 value in rats was reported as 4.15g/kg (3.67-4.63 g/kg) and the acute dermal LD50 value in rabbits exceeded 5 g/kg (Moreno, 1974). In rabbits, iv injection of cinnamyl nitrile (20.3 mg/kg) caused death in 10 min. In guinea-pigs and rabbits, cinnamyl nitrile was found to produce the same effects as hydrogen cyanide, with almost equal toxicity, and rabbits given doses higher than the lethal dose were found to die almost as rapidly as those given hydrogen cyanide (Hunt, 1923).
Flammability and ExplosibilityNotclassified
MetabolismThe toxicity of organic cyanides appears to depend almost entirely on whether they can be metabolized in the body to the free cyanide ion, and on the rate and extent of this conversion and the rate of detoxication of cyanide to thiocyanate. In general, alkyl and arylalkyl cyanides are metabolized with the formation of hydrogen cyanide, while the nitrile group of aryl cyanides is relatively stable. The high toxicity of iv-administered cinnamyl nitrile and the rapidity of death suggest that in rabbits this compound is metabolically converted to hydrogen cyanide (Hunt, 1923; Williams, 1959).
Cinnamaldehyde trans-Cinnamic acid Methacrylonitrile 2-(4-Acetamidobenzylidene)malononitrile 4-HYDROXYBENZYLIDENEMALONONITRILE BENZYLIDENEMALONONITRILE PHENYL RESIN 2-Chloroacrylonitrile p-methylcinnamonitrile TYRPHOSTIN A1 Cinnamonitrile PHENYL VALERATE SPECS AC-907/25004906 trans,trans-2,4-Undecadienal TRANS-4-DIMETHYLAMINOCINNAMONITRILE Acrylonitrile Polyacrylonitrile Phenylacetic acid

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