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Tetrachlorvinphos

Product Name
Tetrachlorvinphos
CAS No.
22248-79-9
Chemical Name
Tetrachlorvinphos
Synonyms
ROL;CVMP;ipo8;Rabon;Ravap;Appex;Rabond;Vinfos;Gardon;Dust M
CBNumber
CB1673649
Molecular Formula
C10H9Cl4O4P
Formula Weight
365.96
MOL File
22248-79-9.mol
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Tetrachlorvinphos Property

Melting point:
97-98 °C(lit.)
Boiling point:
399.5±42.0 °C(Predicted)
Density 
1.520±0.06 g/cm3(Predicted)
vapor pressure 
6.0×10-6 Pa (20 °C)
storage temp. 
0-6°C
solubility 
Acetonitrile (Slightly), Methanol (Slightly)
Water Solubility 
11mg l-1(20°C)
form 
solid
Merck 
13,9267
CAS DataBase Reference
22248-79-9(CAS DataBase Reference)
NIST Chemistry Reference
Tetrachlorvinphos(22248-79-9)
IARC
2B (Vol. 30, Sup 7, 112) 2017
EPA Substance Registry System
Tetrachlorvinphos (22248-79-9)
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Safety

Hazard Codes 
Xn,N,F
Risk Statements 
21/22-50/53-36-20/21/22-11-22
Safety Statements 
36-60-61-36/37-16
RIDADR 
UN 3077 9/PG 3
RTECS 
TB9100000
HS Code 
29199000
Hazardous Substances Data
22248-79-9(Hazardous Substances Data)
Toxicity
LD50 in male, female rats (mg/kg): 1100, 1125 orally (Gaines)
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Hazard and Precautionary Statements (GHS)

Symbol(GHS)
Signal word
Warning
Hazard statements

H302Harmful if swallowed

H410Very toxic to aquatic life with long lasting effects

Precautionary statements

P264Wash hands thoroughly after handling.

P264Wash skin thouroughly after handling.

P270Do not eat, drink or smoke when using this product.

P273Avoid release to the environment.

P301+P312IF SWALLOWED: call a POISON CENTER or doctor/physician IF you feel unwell.

P391Collect spillage. Hazardous to the aquatic environment

P501Dispose of contents/container to..…

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N-Bromosuccinimide Price

Usbiological
Product number
483637
Product name
IPO8
Packaging
100ul
Price
$499
Updated
2021/12/16
AHH
Product number
MT-59100
Product name
Tetrachlorvinphos
Purity
98%
Packaging
5g
Price
$280
Updated
2021/12/16
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Tetrachlorvinphos Chemical Properties,Usage,Production

Description

Tetrachlorvinphos was initially registered for use in the United States in 1966 for use on various food crops, livestock, and pet animals, and in around buildings. Its use on food crops were voluntarily canceled in the United States in 1987; however, it is used on food crops in developing countries. Tetrachlorvinphos is sold under the trade names Rabon and Gardona.

Chemical Properties

Powder.Partially soluble in chloroform; slightly soluble in water.

Chemical Properties

Technical tetrachlorvinphos is a tan-to-brown crystalline solid. Tetrachlorvinphos is stable at ,100 C and slowly hydrolyzed at 50°C. Aromatic odor.
Soluble in water at 24°C 15 ppm; limited solubility in most aromatic hydrocarbons.

Uses

Insecticide.

Uses

Tetrachlorvinphos is used to control lepidopterous and dipterous larvae in fruit and lepidopterous larvae in cotton, maize, rice, tobacco and vegetables. It is also used against nuisance flies in animal houses, animal ectoparasites and stored product pests.

Uses

Tetrachlorvinphos is commonly used as a feed additive to control flies in livestock and as dusts, sprays, dips, and collar ingredient to control ticks and fleas on domestic pets. It is extensively used in poultry. In horses, its formulations are commonly used as a feed additive (feed-through tetrachlorvinphos) larvicide. In addition, tetrachlorvinphos is also used in the control of public health pests, manure flies associated with livestock, and poultry as a feed additive.

Definition

ChEBI: Tetrachlorvinphos is an alkenyl phosphate, a dialkyl phosphate, an organophosphate insecticide, an organochlorine insecticide and a trichlorobenzene. It has a role as an EC 3.1.1.7 (acetylcholinesterase) inhibitor, an agrochemical, an EC 3.1.1.8 (cholinesterase) inhibitor and an acaricide. It is functionally related to a 1-phenylethenol.

Hazard

Cholinesterase inhibitor. Questionable carcinogen.

Carcinogenicity

When rats were given diets with 0, 4250, or 8500 ppm tetrachlorvinphos for 80 weeks, both males and females had a high incidence of thyroid C-cell hyperplasia, and females had increased incidences of adrenal cortical adenomas and thyroid C-cell adenomas .

Environmental Fate

Tetrachlorvinphos is nonpersistent in the environment. The primary route of dissipation is through biotic degradation. Based on its use pattern, risks of contamination of groundwater or surface water by tetrachlorvinphos are minimal.

Metabolic pathway

The chemical structure of tetrachlorvinphos is very close to that of chlorfenvinphos and the routes of metabolic breakdown have been shown to be very similar. Technical tetrachlorvinphos is usually >95% Z-isomer, unlike chlorfenvinphos which is an E/Z mixture. As with chlorfenvinphos, the major routes of detoxification are by dealkylation and hydrolysis to yield desmethyltetrachlorvinphos and 2,2’,4’,5’- tetrachloroacetophenone plus dimethyl phosphate, respectively. Further metabolism of the chloroacetophenone moiety then leads, via reduction or hydrolysis and glutathione-dependent displacement of the side chain chlorine substituent, to the formation of 1-(2,4,5-trichlophenyl) ethane-l,Z-diol and 1-(2,4,5-trichlorophenyl)ethan-l-owl hich are conjugated with glucose or glucuronic acid to afford the ultimate metabolites. Oxidation of the β carbon atom to give 2,4,5-trichloromandelic acid followed by decarboxylation leads to the formation of 2,4,5-trichlorobenzoic acid which is conjugated with glycine in some mammals as the final metabolite. The metabolic routes were summarised by Beynon et al. (1973).

Degradation

Tetrachlorvinphos is hydrolysed slowly in neutral, acidic and slightly alkaline aqueous solutions but hydrolysed rapidly in strongly alkaline solutions to metabolites 3 and 5 (PM). Dureja et al. (1987) reported the photochemical degradation of tetrachlorvinphos in water, ethanol, ether and hexane irradiated with a xenon lamp. In polar solvents, the main product was desmethyltetrachlorvinphos (2), whereas in non-polar solvents such as hexane the reaction yielded dimethyl phosphate (3), 2,4,5-trichloroacet ophenone (4) and 2,2’,4’,5’-tetrachloroacetophenone (5). Interconversion of the Z- and Ε-isomers has been observed on leaves (Beynon and Wright, 1969). These pathways are shown in Scheme 1.

Toxicity evaluation

Acute oral LD50 for rats: 4,000-5,000 mg/kg

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Tetrachlorvinphos Suppliers

Capot Chemical Co., Ltd
Tel
+86 (0) 571 85 58 67 18
Fax
0086-571-85864795
Email
sales@capotchem.com
Country
China
ProdList
18207
Advantage
66
Sichuan Kulinan Technology Co., Ltd
Tel
400-1166-196 18981987031
Fax
028-84555506 800101999
Email
cdhxsj@163.com
Country
China
ProdList
11707
Advantage
57
Chengdu Ai Keda Chemical Technology Co., Ltd.
Tel
4008-755-333 18080918076
Fax
028-86757656
Email
800078821@qq.com
Country
China
ProdList
9718
Advantage
55
UHN Shanghai Research & Development Co., Ltd.
Tel
021-58958002 18930822973
Fax
+86 (21) 5895-8628
Email
SALES@UHNSHANGHAI.COM
Country
China
ProdList
977
Advantage
58
Shanghai Aladdin Bio-Chem Technology Co.,LTD
Tel
400-400-6206333 18521732826
Fax
021-50323701
Email
market@aladdin-e.com
Country
China
ProdList
25003
Advantage
65
Nanjing Sunlida Biological Technology Co., Ltd.
Tel
025-57798810
Fax
025-57019371
Email
sales@sunlidabio.com
Country
China
ProdList
3239
Advantage
55
TianJin Alta Scientific Co., Ltd.
Tel
022-65378550-8551
Fax
+86-022-2532-9655
Email
contact@altascientific.com
Country
China
ProdList
2773
Advantage
58
Alta Scientific Co., Ltd.
Tel
022-6537-8550 15522853686
Fax
022-2532-9655
Email
sales@altasci.com.cn
Country
China
ProdList
4511
Advantage
55
Codow Chemical Co.,Ltd.
Tel
18620099427 18620099427
Fax
+86-20-62619665
Email
amy@howeipharm.com
Country
China
ProdList
1751
Advantage
55
Chongqing Chemieliva Pharmaceutical Co., Ltd.
Tel
023-67770219
Fax
+86 (23) 6777-0220
Email
jessica.hu@chemieliva.com
Country
China
ProdList
1444
Advantage
60

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