86-88-4 Usage
Description
1-(1-NAPHTHYL)-2-THIOUREA, also known as α-Naphthylthiourea (ANTU) or DIRAX, is a toxic organosulfur compound that is harmful through inhalation, ingestion, or skin contact. It is a gray-colored, prism-shaped, odorless powder with a bitter taste and has a molecular weight of 202.28 and a melting point of 200℃. ANTU does not ignite easily but can cause fire and explosions when interacting with potential oxidizing agents, leading to hazardous decomposition products such as sulfur dioxide, nitrogen dioxide, and carbon monoxide. The structure of ANTU contains the naphthalene chromophore, which absorbs UV light at around 311 nm, indicating its potential for photolysis.
Uses
Used in Pest Control Industry:
1-(1-NAPHTHYL)-2-THIOUREA is used as a single-dose rodenticide specifically for controlling adult Norway rats as a bait. It is less toxic to other rat species and was once popular due to its specificity towards Norway rodents. However, due to its tendency to cause resistance and limited effectiveness against other rodent species, ANTU has lost popularity and is no longer manufactured in the United States.
Air & Water Reactions
Slightly soluble in water.
Reactivity Profile
1-(1-NAPHTHYL)-2-THIOUREA is incompatible with the following: Strong oxidizers, silver nitrate .
Health Hazard
Moderately toxic: probable oral lethal dose (human) 0.5-5 gm/kg, or between 1 ounce and 1 pint (or l lb.) for 150 lb. person. Chronic sublethal exposure may cause antithyroid activity. Can produce hyperglycemia of three times normal in three hours. People with chronic respiratory disease or liver disease may be especially at risk.
Health Hazard
α-Naphthalene thiourea, a rodenticide, is very toxic and is fatal if swallowed. Exposures
to ANTU cause poisoning with symptoms that include, but are not limited to, headache,
weakness, dizziness, shortness of breath, cyanosis, blood abnormalities, methemoglobinemia,
irritation of the digestive tract, liver and kidney damage, cardiac and CNS
disturbances, convulsions, tachycardia, dyspnea, vertigo, tinnitus, weakness, disorientation,
lethargy, drowsiness, and fi nally coma and death. The target organs include the
blood, kidneys, CNS, liver, lungs, cardiovascular system, and blood-forming organs.
Fire Hazard
Emits sulfur dioxide, oxides of nitrogen, and carbon monoxide fumes upon decomposition. 1-(1-NAPHTHYL)-2-THIOUREA reacts with silver nitrate and strong oxidizers. Avoid decomposing heat.
Safety Profile
Poison by ingestion and
intraperitoneal routes. Moderately toxic to
humans by an unspecified route.
Questionable carcinogen with experimental
tumorigenic data. Mutagenic data. A
rodenticide used extensively. Death is
caused by pulmonary edema. Chronic toxicity has been known to cause dermatitis
and a decrease in the white blood cells.
When heated to decomposition it emits
toxic fumes of NOx and SOx.
Potential Exposure
ANTU or its formulations are used as
a rodenticide.
Carcinogenicity
ANTU was not carcinogenic in rodent
feeding studies.4 Cases of bladder tumors
among rat catchers exposed to ANTU have
been attributed to b-naphthylamine, a manufacturing
impurity of ANTU. In bacterial
assays ANTU induced mutations.
Environmental Fate
Chemical/Physical. The hydrolysis rate constant for ANTU at pH 7 and 25°C was
determined to be 8 × 10–5/hour, resulting in a half-life of 361 days (Ellington et al., 1988)Emits very toxic fumes of nitrogen and sulfur oxides when heated to decomposition
(Lewis, 1990)
storage
α-Naphthalene thiourea should be kept stored in a tightly closed container in a locked
poison room, in a cool, dry, well-ventilated area away from incompatible substances.
Shipping
UN1651 Naphthylthiourea, Hazard Class: 6.1;
Labels: 6.1-Poisonous materials.
Purification Methods
Crystallise ANTU from EtOH. [Beilstein 12 III 2941, 12 IV 3086.]
Toxicity evaluation
ANTU toxicity in the rat is thought to depend on metabolic
activation via the hepatic and lung microsomal enzymes. Two
important metabolites are formed: ANU and atomic sulfur.
ANTU pulmonary toxicity may result, in part, from covalent
binding of sulfur or a metabolite containing carbonyl carbon of
ANTU to macromolecules of liver and lung microsomes. The
covalent binding of atomic sulfur released in the cytochrome
P450 monooxygenase-catalyzed metabolism of thiono-sulfur
compounds is responsible for monooxygenase activity being
inhibited. Damage to liver and possibly lung edema and
neoplasia result from the covalent binding of the electrophilic
S-oxides, S-dioxides or carbene derivatives of these S-oxides
and S-dioxides to tissue macromolecules.
However, it is not known if these metabolites are seen in
humans. ANTU is believed to act on certain enzyme systems
involving the sulfhydryl group similar to other sulfhydryl
inhibitors, such as alloxan, iodoacetamide, and oxophenarsine,
which cause pulmonary edema. Hence the mechanism
of action of causing pulmonary edema from the toxic
effects of these sulfhydryl inhibitors and ANTU is assumed to
be similar. Additionally, ANTU-induced lung damage has
been linked to the formation of oxygen free radicals produced
via the cyclooxygenase pathway. Following exposure to
ANTU, there are a number of biochemical events, such as
alteration in carbohydrate metabolism, adrenal stimulation,
and interaction of the chemical with sulfhydryl groups, but
none of these appear to bear any relationship to the observed
signs of toxicity.
Incompatibilities
Incompatible with oxidizers (chlorates,
nitrates, peroxides, permanganates, perchlorates, chlorine,
bromine, fluorine, etc.); contact may cause fires or explosions.
Keep away from alkaline materials, strong bases,
strong acids, oxoacids, epoxides, silver nitrate.
Waste Disposal
Incinerate in a furnace
equipped with an alkaline scrubber. Consult with environmental
regulatory agencies for guidance on
acceptable disposal practices. Generators of waste containing
this contaminant (≥100 kg/mo) must conform with
EPA regulations governing storage, transportation, treatment,
and waste disposal.
Precautions
Workers should use/handle α-naphthalene thiourea with adequate ventilation. During
use, dust generation and accumulation should be minimum, and avoid contact with the
eyes, skin, and clothing.
Check Digit Verification of cas no
The CAS Registry Mumber 86-88-4 includes 5 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 2 digits, 8 and 6 respectively; the second part has 2 digits, 8 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 86-88:
(4*8)+(3*6)+(2*8)+(1*8)=74
74 % 10 = 4
So 86-88-4 is a valid CAS Registry Number.
InChI:InChI=1/C11H10N2S/c12-11(14)13-10-7-3-5-8-4-1-2-6-9(8)10/h1-7H,(H3,12,13,14)
86-88-4Relevant articles and documents
Solid phase deracemization of an atropisomer
Engwerda, Anthonius H.J.,Van Schayik, Pim,Jagtenberg, Henjo,Meekes, Hugo,Rutjes, Floris P.J.T.,Vlieg, Elias
, p. 5583 - 5585 (2017)
The scope of Viedma ripening and temperature cycling with respect to chiral molecules has remained mostlylimited to molecules with a single stereogenic center, while racemization proceeds through inversion at that particularstereocenter. In this article we demonstrate for the first time that atropisomers, chiral rotamers that possess an axis of chirality, can be successfully deracemized in the solid phase by either applying temperature cycling or Viedma ripening.
Organophosphine-free copper-catalyzed isothiocyanation of amines with sodium bromodifluoroacetate and sulfur
Feng, Wei,Zhang, Xing-Guo
supporting information, p. 1144 - 1147 (2019/01/28)
A copper-catalyzed isothiocyanation of amines with sodium bromodifluoroacetate and sulfur in the absence of organophosphine has been established. This approach represents a simple and efficient one-pot synthesis of isothiocyanates, and features excellent functional group tolerance and the use of a cheap, safe and odorless sulfur source. Moreover, this process could directly provide isothiocyanate analogous bioactive molecules, thiocarbonyl-containing pesticides and facile construction of benzoxazole and benzimidazole frames.
Thiocarbonyl Surrogate via Combination of Sulfur and Chloroform for Thiocarbamide and Oxazolidinethione Construction
Tan, Wei,Wei, Jianpeng,Jiang, Xuefeng
supporting information, p. 2166 - 2169 (2017/04/27)
An efficient and practical thiocarbonyl surrogate via combination of sulfur and chloroform has been developed. A variety of thiocarbamides and oxazolidinethiones have been established, including chiral thiourea catalysts and chiral oxazolidinethione auxiliaries with high selectivity. Meanwhile, pesticides Diafenthiuron (an acaricide), ANTU (a rodenticide), and Chloromethiuron (an insecticide) were practically synthesized through this method in gram scale. Dicholorocarbene, as the key intermediate, was further confirmed via a carbene-trapping control experiment.