For research and development scientists, identifying and sourcing the right chemical components is fundamental to experimental success. 1,3-Dichloropropene, a chemical compound readily identified by its CAS number 542-75-6, presents a compelling case due to its diverse applications and critical role in various scientific fields.

The primary utility of 1,3-Dichloropropene stems from two main areas: its function as a potent nematicide in agriculture and its significant value as an intermediate in organic synthesis. As a nematicide, it is incorporated into agricultural mixtures to protect crops from damaging nematodes, thereby enhancing yield and quality. This application makes it a sought-after material for R&D in agrochemistry, focusing on formulation optimization and efficacy testing.

Beyond agriculture, 1,3-Dichloropropene is a vital precursor in the synthesis of more complex organic molecules. Scientists in pharmaceutical development, material science, and specialty chemicals often utilize it as a starting material or intermediate. When researchers need to buy 1,3-dichloropropene cis trans mix, they are looking for a high-purity product that guarantees predictable reaction outcomes, essential for reproducible research.

The physical properties of 1,3-Dichloropropene, such as its appearance as a transparent liquid and an assay typically above 95%, are important considerations for laboratory work. Understanding its stability, handling requirements, and compatibility with other reagents is crucial for safe and effective use. For R&D professionals, sourcing this chemical often involves identifying suppliers who can provide detailed product specifications and reliable batch-to-batch consistency.

When seeking a 1,3-dichloropropene CAS 542-75-6 supplier, researchers should prioritize those offering easy access to product information and responsive customer service. Many global suppliers, including those based in China, provide competitive pricing for small to medium quantities, making this compound accessible for laboratory-scale investigations. Requesting a quote for this organic synthesis raw material can help identify cost-effective sourcing channels.

In conclusion, 1,3-Dichloropropene is an indispensable compound for both agricultural research and broad organic synthesis. By understanding its applications and partnering with reliable suppliers, R&D scientists can ensure they have the high-quality materials needed to drive innovation and achieve their research objectives.