Malononitrile

Malononitrile Basic information

Product Name:	Malononitrile
Synonyms:	AKOS BBS-00004370;METHYLENE DICYANIDE;METHYLENE CYANIDE;MALONONITRILE 99%;Malononitrile~99%;Malononitrile(form1);Methane, dicyano-;Methylenedinitrile
CAS:	109-77-3
MF:	C3H2N2
MW:	66.06
EINECS:	203-703-2
Product Categories:	Dinitriles;Dinitriles & Trinitriles;Agrochemicals;Pharmaceutical intermediates;K00001;R00001
Mol File:	109-77-3.mol

Malononitrile Chemical Properties

Melting point	30-32 °C (lit.)
Boiling point	220 °C (lit.)
density	1.049 g/mL at 25 °C (lit.)
vapor pressure	1 hPa (50 °C)
refractive index	1.4150
Fp	234 °F
storage temp.	2-8°C
solubility	133g/l
pka	11(at 25℃)
form	Crystalline Low Melting Mass
color	White to yellow-brown
Specific Gravity	1.049
PH	pH : 4.5
Water Solubility	13.3 g/100 mL (20 ºC)
Merck	14,5711
BRN	773697
Exposure limits	TLV-TWA 8 mg/m³ (3 ppm) (NIOSH).
InChIKey	CUONGYYJJVDODC-UHFFFAOYSA-N
CAS DataBase Reference	109-77-3(CAS DataBase Reference)
NIST Chemistry Reference	Malononitrile(109-77-3)
EPA Substance Registry System	Malononitrile (109-77-3)

Safety Information

Hazard Codes	T,N
Risk Statements	23/24/25-50/53
Safety Statements	23-27-45-60-61
RIDADR	UN 2647 6.1/PG 2
WGK Germany	3
RTECS	OO3150000
F	8
Autoignition Temperature	365 °C
TSCA	Yes
HazardClass	6.1
PackingGroup	II
HS Code	29269090
Hazardous Substances Data	109-77-3(Hazardous Substances Data)
Toxicity	LD50 i.p. in mice: 12.9 mg/kg (Jones, Israel)

MSDS Information

Provider	Language
ACROS	English
SigmaAldrich	English
ALFA	English

Malononitrile Usage And Synthesis

Description	Malonitrile, also known as Malononitrile, is an aliphatic nitrile that can release cyanide through chemical or biological transformation. It was also used decades ago for treating certain forms of mental illness.
Chemical Properties	Malononitrile is a white powder or colorless, odorless crystalline substance. It may polymerize violently on prolonged heating at 130°C or at lower temperatures on contact with strong bases.
Uses	The chemical properties of malononitrile are determined by the nucleophilicity of the malononitrile anion, formed by deprotonation with relatively weak bases and by the two electrophilic cyano groups.
Uses	Malononitrile is an important building block for the syntheses of pharmaceuticals (e.g. triamterene, adenine and methotrexate), thiamin (vitamin B1), pesticides dyestuffs for color photography and synthetic fibers (e.g. vinylidene cyanide). Product Data Sheet
Production Methods	Malononitrile can be synthesized by a continuous method where preheated acetonitrile and cyanogen chloride are introduced into a tube reactor until the reaction mixture reaches a temperature of about 780°C. Another way to prepare malononitrile is by reacting phosphorus pentachloride with cyanoacetamide, or by using phosphorus pentoxide to react with malonamide or cyanoacetamide. DOI: 10.15227/orgsyn.010.0066
Definition	ChEBI: Malononitrile is a dinitrile that is methane substituted by two cyano groups. It is a dinitrile and an aliphatic nitrile.
General Description	A white-colored crystalline solid. Denser than water and soluble in water. Toxic by ingestion and may severely irritate skin and eyes. May polymerize violently if exposed to temperatures above 266°F. Used to make other chemicals.
Air & Water Reactions	Soluble in water.
Reactivity Profile	Malononitrile is a white, low-melting powder (m. p. 30.5° C), toxic, combustible. Violent polymerization on contact with strong bases (sodium hydroxide, potassium hydroxide) or when heated above 130° C. When stored at 70-80° C for 2 months, spontaneous explosion (decomposition) occurred [Bretherick, 5th ed., 1995, p. 394].
Hazard	Toxic by ingestion and inhalation.
Health Hazard	Metabolized by body to cyanide and thiocyanate; effects of inhalation of toxic fumes will be related to cyanide. Causes brain and heart damage related to lack of cellular oxygen. It is classified as extremely toxic. Probable oral lethal dose for humans is 5-50 mg/kg, or between 7 drops and 1 teaspoonful, for a 70 kg (150 lb.) person.
Health Hazard	Malononitrile is a highly toxic compound by all toxic routes. Its acute toxicity is somewhat greater than that of the aliphatic mononitriles, propionitrile, and butyronitrile. The increased toxicity may be attributed to the greater degree of reactivity in the molecule arising from two- CN functional groups. The acute toxic symptoms in test animals have not been well documented. An intraperitoneal dose of 10 mg/kg was lethal to rats. LD50 value, intravenous (rabbits): 28 mg/kg LD50 value, oral (mice): 19 mg/kg Malononitrile is an eye irritant. The irritation from 5 mg in 24 hours was severe in rabbits’ eyes. There is no report of teratogenic and carcinogenic action in animals or humans.
Fire Hazard	When heated to decomposition, Malononitrile emits highly toxic fumes (cyanide). May polymerize violently on prolonged heating. Avoid heat. Hazardous polymerization may occur, at prolonged heating at 266F or contact with strong bases at lower temperatures.
Industrial uses	Malononitrile is used primarily as an intermediate in the synthesis of drugs and vitamins (thiamine). It has also been employed in the manufacture of photosensitizes, acrylic fibers and dyestuffs and as an oil-soluble polar additive in lubricating oil. Malononitrile was used formerly in treatment of various forms of mental illness such as alteration of psychic functions and schizophrenic disorders.
Safety Profile	Poison by ingestion, skin contact, subcutaneous, intravenous, and intraperitoneal routes. A severe eye irritant. Combustible when exposed to heat or flame. Polymerizes violently when heated to 130°C or on contact with strong base. May spontaneously explode when stored at 70-80°C. To fight fire, use water, fog, spray, foam. When heated to decomposition it emits toxic fumes of NOx and CN-. See also NITRILES.
Environmental Fate	When heated to decomposition, nitriles may release cyanide. Malonitrile appears to decompose rapidly in contact with soil and sediment.
Metabolism	The in vitro metabolsim of malononitrile has been described by Stern et al. In the presence of thiosulphate, brain, liver and kidney slices metabolized malononitrile to thiocyanate. The formation of thiocyanate from malononitrile and thiosulphate was greatest in the presence of liver slices, lowest in brain, and intermediate with kidney slices. The liver enzyme system was saturated at a concentration of 3.3 mM malononitrile and a pH optimum of 7.0. This enzyme system was inhibited by cysteine and glutathione and inactivated by boiling. Stern et al indicated that thiosulphate increased cyanide and thiocyanate formed from malononitrile in tissue slices.
Purification Methods	Crystallise the nitrile from water, EtOH, *benzene or chloroform. Distil it in a vacuum from, and store over, P2O5. [Bernasconi et al. J Am Chem Soc 107 7692 1985, Gratenhuis J Am Chem Soc 109 8044 1987, Beilstein 2 IV 1892.]
Toxicity evaluation	The acute toxicity of malonitrile and related alkyl nitriles is thought to be due to release of cyanide through metabolism of the parent compound. Signs of acute malonitrile intoxication including dyspnea, ataxia, and convulsions are similar to those noted with acute cyanide intoxication. The onset and duration indicate that these nitriles require metabolism to elicit toxicity. Cyanide and thiocyanate have both been found in urine and blood after malonitrile exposure.
Incompatibilities	Incompatible with strong bases. May polymerize violently on prolonged heating @ 129C, or in contact with strong bases at lower temperatures. Nitriles may polymerize in the presence of metals and some metal compounds. They are incompatible with acids; mixing nitriles with strong oxidizing acids can lead to extremely violent reactions. Nitriles are generally incompatible with other oxidizing agents such as peroxides and epoxides. The combination of bases and nitriles can produce hydrogen cyanide. Nitriles are hydrolyzed in both aqueous acid and base to give carboxylic acids (or salts of carboxylic acids). These reactions generate heat. Peroxides convert nitriles to amides. Nitriles can react vigorously with reducing agents. Acetonitrile and propionitrile are soluble in water, but nitriles higher than propionitrile have low aqueous solubility. They are also insoluble in aqueous acids.

Malononitrile Preparation Products And Raw materials

Raw materials

Phosphorus oxychloride-->Sodium chloride-->Ethyl cyanoacetate-->Dichloroethane-->2-Cyanoacetamide-->Dehydrolyzing agent-->Allene

Preparation Products

5-AMINO-4-ISOXAZOLECARBONITRILE-->5-(AMINOMETHYL)PYRIMIDIN-4-AMINE-->1,4,5,8-Naphthalenetetracarboxylic acid-->2-AMINO-3-CYANO-4-CHLORO-5-FORMYLTHIOPHENE-->3-CYANO-7-ETHOXYCOUMARIN-->4-AMINOPYRIMIDINE-5-CARBOXAMIDE-->2-AMINO-5,6-DIHYDRO-4H-CYCLOPENTA[B]THIOPHENE-3-CARBOXAMIDE-->5-AMINO-1-(4-CHLOROPHENYL)-1H-PYRAZOLE-4-CARBONITRILE-->2,4,6-Triaminopyrimidine-->3-CYANO-7-METHOXYCOUMARIN-->Azimsulfuron-->4,6-DIAMINO-2-METHYLMERCAPTOPYRIMIDINE-->5-AMINO-4-CYANO-3-METHYL-THIOPHENE-2-CARBOXYLIC ACID ETHYL ESTER-->2-Amino-3-cyanopyridine-->2-AMINO-6-METHYL-4,5,6,7-TETRAHYDRO-1-BENZOTHIOPHENE-3-CARBONITRILE-->2-AMINO-3,5-DICYANOPYRIDINE-->2,4-DIAMINOPYRIMIDINE-5-CARBOXYLIC ACID-->2-AMINO-5,6-DIHYDRO-4H-CYCLOPENTA[B]THIOPHENE-3-CARBONITRILE-->2-AMINO-4,5-DIMETHYL-THIOPHENE-3-CARBONITRILE-->4-Amino-6-methylpyrimidine-5-carbonitrile ,97%-->2-AMINO-3-CYANO-4-METHYL-5-CARBMETHOXY THIOPHENE-->2,4-DIAMINOPYRIMIDINE-5-CARBONITRILE-->2-AMINO-4,5,6,7-TETRAHYDRO-1-BENZOTHIOPHENE-3-CARBONITRILE-->2-Aminonicotinic acid-->Levosimendan-->4-AMINO-1,2,5-OXADIAZOLE-3-CARBONITRILE-->2-AMINO-6-METHYL-4,5,6,7-TETRAHYDROTHIENO[2,3-C]PYRIDINE-3-CARBONITRILE-->5-AMINO-1-PHENYLPYRAZOLE-4-CARBONITRILE-->2-AMINO-4-METHYL-QUINOLINE-3-CARBONITRILE-->[2-[4-(dihexylamino)-2-methylbenzylidene]benzo[b]thien-3(2H)-ylidene]malononitrile S,S-dioxide-->4,6-Dimethyl-2-hydroxypyridine-->2,4,6-TRIAMINO-5-NITROPYRIMIDINE-->4,6-DIAMINO-2-MERCAPTOPYRIMIDINE-->3,5-Difluorophenylacetic acid-->4-AMINOPYRIMIDINE-5-CARBONITRILE-->4-AMINO-2-(METHYLTHIO)PYRIMIDINE-5-CARBONITRILE-->2-AMINO-6-CHLORO-3,5-DICYANOPYRIDINE-->Solvent Red 197

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Malononitrile

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