Basic information Uses Preparation Hazard Safety Supplier Related

CYANOGEN

Basic information Uses Preparation Hazard Safety Supplier Related

CYANOGEN Basic information

Product Name:
CYANOGEN
Synonyms:
  • OXALONITRILE
  • CYANOGEN
  • cyanogene
  • dicyanogene
  • oxalonitrile cyanogen
  • Carbon nitride (C2N2)
  • Cyanogen (C2N2)
  • dicyan
CAS:
460-19-5
MF:
C2N2
MW:
52.03
EINECS:
207-306-5
Product Categories:
  • Organics
Mol File:
460-19-5.mol
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CYANOGEN Chemical Properties

Melting point:
-27.9° (also reported as -34.4°)
Boiling point:
bp -21.17°
Density 
d4-21.17 0.9537
vapor pressure 
520-570kPa at 21-25℃
refractive index 
1.3780 (estimate)
solubility 
slightly soluble in H2O, ethyl ether; soluble in ethanol
form 
colorless gas
color 
colorless
Water Solubility 
1.1–1.3g/100g H2O; 26 g/100g alcohol; 5g/100g ether [CIC73]
Exposure limits
TLV-TWA 20 mg/m3 (10 ppm) (ACGIH).
Dielectric constant
2.6(23℃)
LogP
0.08 at 20℃ and pH6.8
CAS DataBase Reference
460-19-5
EPA Substance Registry System
Cyanogen (460-19-5)
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Safety Information

Hazard Codes 
F,T,N
Risk Statements 
11-23-50/53
Safety Statements 
23-45-60-61
RIDADR 
1026
OEB
A
OEL
TWA: 10 ppm (20 mg/m3)
HazardClass 
2.3
Hazardous Substances Data
460-19-5(Hazardous Substances Data)
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CYANOGEN Usage And Synthesis

Uses

Cyanogen has limited applications, the most important of which are in organic synthesis. Also, it is used in welding metals; as a fumigant; and in some rocket propellants.

Preparation

Cyanogen is prepared by the slow addition of potassium cyanide solution to a solution of copper(II) salt, such as copper(II) sulfate or chloride:
2Cu2+ + 4CN¯ → 2CuCN + (CN)2
Cyanogen also may be prepared by the reaction of mercuric cyanide with mercuric chloride. Dry cyanogen gas may be obtained by this process:
Hg(CN)2 + HgCl2 → Hg2Cl2 + (CN)2
yanogen may be prepared by oxidation of hydrogen cyanide with oxygen, nitrogen dioxide, chlorine, or another suitable oxidizing agent, using various catalysts:
4HCN + O2 → 2(CN)2 + H2O
2HCN + NO2 →(CN)2 + NO + H2O
2HCN + Cl2 →(CN)2 + 2HCl

Hazard

Cyanogen is a highly flammable gas. It forms explosive mixtures with air, LEL 6.6%, UEL 32% by volume. Reactions with oxygen, ozone, fluorine or other strong oxidizing agents can be explosive. Also, it can explode when exposed to spark, flame or heat.
Cyanogen is moderately toxic by inhalation. Exposure causes irritation of the eyes, nose and respiratory tract. A 10-minute exposure to about 10 ppm of the gas can manifest these irritant action in humans.
LC50 (rat): 350 ppm in 1 hour.

Description

Cyanogen is a colorless, flammable, compressed liquefied gas at room temperature. At deadly levelsonly, it has a pungent, almond-like odor. Molecular weight=52.04; Boiling point=221℃; Relative density(gas)=1.82; Freezing/Melting point=2 28℃; Vaporpressure=5.1 atm at 25℃; Relative vapor density(air=1)=1.82. Explosive limits: LEL=6.6%;UEL=32.0%. Hazard Identification (based on NFPA-704M Rating System): Health 4, Flammability 4, Reactivity 2.Soluble in water; solubility=1%.
Note: The irritant properties of cyanogen have been testedusing both human male and female subjects, 21-65 yearsof age. The distinctive bitter almond smell of cyanogencould not be detected at concentrations of 50, 100, and250 ppm. When exposed to 8 ppm for 6 min or 16 ppm for6-8 min, immediate eye and nose irritation occurred.

Chemical Properties

Cyanogen is a colorless, flammable, com- pressed liquefied gas at room temperature. At deadly levels only, it has a pungent, almond-like odor.

Uses

Cyanogen is used as a fumigant, as a fuel gas for welding and cutting metals, as a propellant, and in organic synthesis. It occurs in blast-furnace gases. It is also known to occur at varying concentrations in cassava flour consumed in northern Mozambique.

Uses

Organic synthesis; fuel gas for welding and cutting heat-resistant metals; rocket and missile propellant; fumigant

Definition

A toxic flammable gas prepared by heating mercury cyanide.

Definition

cyanogen: A colourless gas, (CN)2,with a pungent odour; soluble inwater, ethanol, and ether; d. 2.335g dm–3; m.p. –27.9°C; b.p. –20.7°C.The compound is very toxic. It maybe prepared in the laboratory byheating mercury(II) cyanide; industriallyit is made by gas-phase oxidationof hydrogen cyanide using air over asilver catalyst, chlorine over activatedsilicon(IV) oxide, or nitrogendioxide over a copper(II) salt.Cyanogen is an important intermediatein the preparation of various fertilizersand is also used as a stabilizerin making nitrocellulose. It is an exampleof a pseudohalogen.

Production Methods

Cyanogen can be prepared by slowly dropping potassium cyanide solution into copper sulfate solution or by heating mercury cyanide.

Definition

ChEBI: A dinitrile that is ethane substituted by two cyano groups.

Production Methods

Cyanogen is prepared (1) by reaction of sodium cyanide and copper sulfate solutions, whereby one half the cyanogen is evolved as cyanogen gas and one half remains as cuprous cyanide. From the filtered cuprous cyanide, by treatment with ferric chloride solution, cyanogen is evolved with accompanying formation of ferrous chloride, (2) by heating ammonium oxalate COONH4·COONH4 with phosphorus pentoxide, water being abstracted. Small amounts of cyanogen are present in blast furnace gas and raw coal gas.

Reactions

Cyanogen (CN)2 is a colorless gas of marked characteristic odor, very poisonous, density 1.8 (air equal to 1.0), soluble. When passed into water at 0 °C, cyanogen forms hydrocyanic acid plus cyanic acid, but at ordinary temperatures the reaction is complex. With sodium hydroxide solution, there is formed with cyanogen sodium cyanide plus sodium cyanate, with dilute sulfuric acid oxamic acid COOH·CONH2, oxalic acid COOH·COOH. By reaction with tin and hydrochloric acid, cyanogen is reduced to ethylene diamine CH2·NH2·CH2·NH2. Cyanogen reacts with hydrogen to form hydrocyanic acid, and with metals, e.g., zinc, copper, lead, mercury, silver, to form cyanides.
Cyanogen, (1) when burned in air produces a violet flame forming carbon dioxide and nitrogen in the outer part and carbon monoxide and nitrogen in the inner part, (2) when exploded with oxygen produces carbon dioxide or carbon monoxide and nitrogen depending upon the ratio of oxygen to cyanogen (2 volumes oxygen plus 1 volume cyanogen yields 2 volumes carbon dioxide plus 1 volume nitrogen; 1 volume oxygen plus 1 volume cyanogen yields 2 volumes carbon monoxide plus 1 volume nitrogen). The flame spectrum contains characteristic bands in the blue and violet. By means of the electric spark, the electric arc or a red hot tube, cyanogen is decomposed into carbon plus nitrogen. When heated at ordinary pressure at about 300 °C, or under 300 atmospheres pressure at about 225°, cyanogen is converted into paracyanogen, a brown powder, also formed when mercuric cyanide is heated.

General Description

A colorless gas with an odor of almonds. Freezes at -28°C and boils at -20.7°C. Shipped as a liquid confined under its vapor pressure. The gas is heavier than air and a flame can travel back to the source of leak very easily. Prolonged exposure to fire or intense heat may cause the containers to violently rupture and rocket. Used to make other chemicals, as a fumigant, and as a rocket propellant.

Air & Water Reactions

Highly flammable. Soluble in water and slowly decomposed by water to oxalic acid and ammonia.

Reactivity Profile

Colorless, flammable, highly toxic gas. CYANOGEN can react explosively with strong oxidants (dichlorine oxide, fluorene, oxygen, ozone). When heated to decomposition or on contact with acids, acid fumes, water or steam CYANOGEN will react to produce deadly hydrogen cyanide gas and oxides of nitrogen [Sax, 9th ed., 1996, p. 945].

Health Hazard

Vapor irritates eyes and causes giddiness, headache, fatigue, and nausea if inhaled.

Health Hazard

Cyanogen is a highly poisonous gas having toxic symptoms similar to those of HCN. Acute exposure can result in death by asphyxia. The toxic routes are inhalation and percutaneous absorption. At sublethal concentrations the symptoms of acute toxicity are nausea, vomiting, headache, confusion, and weakness.
Rats exposed to cyanogen exhibited toxic symptoms of respiratory obstruction, lacrimation, and somnolence. Exposure to 350 ppm for 1 hour caused death to 50% of test animals. In humans, exposure to 16 ppm for 5 minutes produced irritation of eyes and nose. Toxicity of cyanogen is considerably lower than that of HCN. Lethal dose in test animals from subcutaneous injection varied between 10 and 15 mg/kg. Ernesto et al. (2002) have reported persistent konzo epidemics and subclinical upper motor neuron damage along with an elevated urinary thiocyanate concentration in school children in Mozambique who were exposed to high cyanogen concentrations from cassava flour.
A subchronic toxicity study conducted on male rhesus monkeys and male albino rats exposed over a period of 6 months (6 hours/day, 5 days/week) indicated marginal toxicity of cyanogen at 25 ppm (Lewis et al. 1984). Total lung moisture content and body weights were significantly lower. The odor threshold level for cyanogen is about 250 ppm.

Fire Hazard

Highly flammable, burns with a purpletinged flame; vapor density 1.8 (air = 1); the vapor may travel a considerable distance to an ignition source and flash back; fireextinguishing procedure: use a water spray to fight fire and keep fire-exposed containers cool; shut off the flow of gas.
Cyanogen forms an explosive mixture with air within the range of 6.6–32%. Liquid cyanogen can explode when mixed with liquid oxygen. When mixed with an acid or water or when heated to decomposition, it produces toxic fumes.

Safety Profile

: A poison by subcutaneous and possibly other routes. Moderately toxic by inhalation. Human systemic effects by inhalation: damage to the olfactory nerves and irritation of the conjunctiva. A systemic irritant by inhalation and subcutaneous routes. A human eyeirritant. Very dangerous fire hazard when exposed to heat, flames (sparks), or oxidizers. To fight fire, stop flow of gas. Potentially explosive reaction with powerful oxidants (e.g., dichlorine oxide, fluorine, oxygen, ozone). When heated to decomposition or on contact with acid, acid fumes, water, or steam will react to produce highly toxic fumes of NOx and CN-. See also other cyanogen entries and CYANIDE.

Potential Exposure

Cyanogen is currently used as an intermediate in organic syntheses; at one time, it was used in poison gas warfare.

First aid

If this chemical gets into the eyes, remove anycontact lenses at once and irrigate immediately for at least15 min, occasionally lifting upper and lower lids. Seek medical attention immediately. If this chemical contacts theskin, remove contaminated clothing and wash immediatelywith soap and water. Seek medical attention immediately. Ifthis chemical has been inhaled, remove from exposure,begin rescue breathing (using universal precautions, including resuscitation mask) if breathing has stopped and CPR ifheart action has stopped. Transfer promptly to a medicalfacility. When this chemical has been swallowed, get medical attention. Give large quantities of water and inducevomiting. Do not make an unconscious person vomit.Medical observation is advised for 24-48 h. If frostbite hasoccurred, seek medical attention immediately; do NOT rubthe affected areas or flush them with water. In order to prevent further tissue damage, do NOT attempt to remove frozen clothing from frostbitten areas. If frostbite has NOToccurred, immediately and thoroughly wash contaminatedskin with soap and water.
cal attention. Give large quantities of water and inducevomiting. Do not make an unconscious person vomit.Medical observation is advised for 24-48 h. If frostbite hasoccurred, seek medical attention immediately; do NOT rubthe affected areas or flush them with water. In order to prevent further tissue damage, do NOT attempt to remove frozen clothing from frostbitten areas. If frostbite has NOToccurred, immediately and thoroughly wash contaminatedskin with soap and water. immediate work area and must be rapidly available. Kitingredients should be replaced every 1-2 years to ensurefreshness. Persons trained in the use of this kit, oxygen use,and CPR must be quickly available

storage

Cyanogen is stored outside or in a detached area: cool, dry, and well ventilated, and isolated from acid, acid fumes, and water. It is shipped in high-pressure metal cylinders of.

Shipping

UN1026 Cyanogen, Hazard Class: 2.3; Labels: 2.3-Poisonous gas, 2.1-Flammable gas, Inhalation Hazard Zone B. Cylinders must be transported in a secure upright position, in a well-ventilated truck. Protect cylinder and labels from physical damage. The owner of the compressed gas cylinder is the only entity allowed by federal law (49CFR) to transport and refill them. It is a violation of transportation regulations to refill compressed gas cylinders without the express written permission of the owner.

Incompatibilities

Chemically unstable in rising tempera- tures. May form explosive mixture with air. Explosive reac- tion with strong oxidizers (e.g., dichlorine oxide, fluorine). Forms toxic gases on contact with acids, including hydro- gen cyanide. Slowly hydrolyzed in water to form hydrogen cyanide, oxalic acid, and ammonia.

Waste Disposal

Return refillable compressed gas cylinders to supplier. Incineration; oxides, or nitrogen are removed from the effluent gas by scrubbers and/or ther- mal devices.

CYANOGENSupplier