39202-40-9

Basic information

• Product Name: IMINOCTADINE TRIACETATE
• Synonyms: DF-125;IMINOCTADINE TRIACETATE;GUAZATINE TRIACETATE;N,N'''-(iminodi-8,1-octanediyl)bisguanidinium acetate;Guanidine, N,N-(iminodi-8,1-octanediyl)bis-, acetate;25% IMINOCTADINE TRIACETATE SOLUTION;PANOCTINE;1，1'-iminodi (octamethylene) diguanidine
• CAS NO: 39202-40-9
• Molecular Formula: C24H53N7O6
• Molecular Weight: 535.72
• EINECS: 254-351-1
• Mol File: 39202-40-9.mol
• Article Data: 0

Chemical Properties

• Appearance: /
• Vapor Pressure: <0.4 x 10-3 Pa (23 °C)
• Storage Temp.: 0-6°C
• PKA: >9, >13, >13 (strong base)
• Water Solubility: 764,000 mg l-1 (25 °C)
• CAS DataBase Reference: IMINOCTADINE TRIACETATE(CAS DataBase Reference)
• NIST Chemistry Reference: IMINOCTADINE TRIACETATE(39202-40-9)
• EPA Substance Registry System: IMINOCTADINE TRIACETATE(39202-40-9)

Safety Data

• RIDADR: 2588
• HazardClass: 6.1(a)
• PackingGroup: I
• Hazardous Substances Data: 39202-40-9(Hazardous Substances Data)

Usage

Description

Iminoctadine triacetate is an active ingredient commonly utilized in the agricultural industry as a fungicide. It is effective against a variety of fungal pathogens that can cause diseases in crops, particularly in cereals, as well as on citrus fruit and apples.

Uses

Used in Agricultural Industry:
Iminoctadine triacetate is used as a seed treatment and spray for the control of various fungal pathogens, such as Septoria nodorum, Tilletia caries, Fusarium spp., and Helminthosporium spp., in cereal crops. This fungicide helps protect the crops from diseases, ensuring a healthy yield and reducing the need for additional chemical treatments.
Used in Citrus and Apple Industry:
Iminoctadine triacetate is also used in the citrus and apple industries to control fungal infections that can damage the fruit and reduce its quality. By applying this fungicide, growers can maintain the health and appearance of the fruit, ensuring a better product for consumers.

Metabolic pathway

Iminoctadine is a strong base with two guanidino groups with pKa >13 and an amino group with pKa >9. It is ionised at all pH values typically encountered in the environment. Although the tri-cation is highly polar it will be strongly sorbed to soils by the ion exchange mechanism as well as by hydrophobic interactions of its alkyl chains. Amino compounds usually readily form unextractable residues in soils. For these reasons the fungicide is strongly sorbed to soils and there it has low biological availability to plants and animals and is protected from microbial degradation. The only major identified products of transformation were products of photooxidation and the deamidinated products detected in rats.

Degradation

Iminoctadine triacetate is stable in neutral and aqueous acidic media but unstable in alkaline conditions. There was no appreciable hydroysis of iminoctadine in buffer solutions at pH 5,7 and 9 after one month at 25 °C (PM). [14C-guanidine]Iminoctadinetr iacetate was coated onto glass plates and exposed to artificial (12 hours day-1) or natural sunlight. Loss by volatilisation was negligible over 336 hours. Photodegradation was initially rapid (DT50 40 hours) but subsequently slowed (DT50 912 hours). One major and several minor photoproducts were detected after irradiation for 336 hours and in total represented 69% of the applied radioactivity of which the major product accounted for 31%. The major metabolite was converted into pyrimidine derivatives to aid analysis by IR, NMR and MS methods. The major photoproduct was tentatively identified as 4- or 6-methyl-5-oxo-9-azaheptadecane-1,17-diguanidine (2 or 3, Scheme 1) and it was formed by photo-oxidation and methylation of adjacent methylene groups. One of the intermediates in the formation of 2 or 3 was another unidentified photo-oxidation product of iminoctadine (Sato et al., 1985b).