1,3-Dichloropropene, identified by CAS number 542-75-6, is a fascinating chemical compound with significant implications for both agricultural science and organic synthesis. Understanding its chemistry is key to appreciating its effectiveness as a nematicide and its utility as a synthetic intermediate.

Chemically, 1,3-Dichloropropene exists as a mixture of cis and trans isomers, a characteristic that influences its physical properties and reactivity. The molecule, with the formula C3H4Cl2, features a three-carbon chain with chlorine atoms attached to specific positions and a double bond. Its appearance as a transparent liquid with a specific density range is typical for chlorinated hydrocarbons of this molecular weight (110.97 g/mol).

As an organic synthesis raw material, 1,3-Dichloropropene offers several reactive sites. The chlorine atoms can be displaced in substitution reactions, and the double bond can undergo addition reactions, making it a versatile building block for creating more complex organic molecules. Chemists often rely on its predictable behavior in various synthetic pathways, seeking out high-purity grades, such as the 95% assay commonly available when you buy 1,3-dichloropropene cis trans mix.

The nematicidal action of 1,3-Dichloropropene is attributed to its ability to disrupt the biological processes of nematodes. While the precise mechanisms are complex and still under study, it is believed to involve alkylation of vital biomolecules within the nematodes, leading to their inactivation and death. This targeted action makes it a valuable component in soil fumigants and other agricultural treatments aimed at protecting plant roots from nematode damage.

For those in agricultural research, understanding how 1,3-dichloropropene works at a chemical level allows for more informed formulation development and application strategies. Similarly, for organic synthesis, knowing its reactivity profiles helps scientists design efficient synthetic routes.

When sourcing this compound, it is important to connect with a reliable 1,3-dichloropropene CAS 542-75-6 supplier. Manufacturers who can provide consistent quality and detailed technical information are essential partners for both research and production. Whether you are exploring its use as a nematicide for agriculture or as an intermediate for chemical synthesis, a thorough understanding of its chemical properties is the first step to successful application.