1-Phenylsemicarbazide: A Vital Intermediate in Agrochemical Synthesis
Discover the critical role and properties of 1-Phenylsemicarbazide, a key building block for essential crop protection solutions.
Get a Quote & SampleProduct Core Value
1-Phenylsemicarbazide
1-Phenylsemicarbazide, also known as anilinourea, is a crucial chemical compound primarily serving as an indispensable intermediate in the synthesis of Triazophos, a widely used organophosphate insecticide. Its reliable quality and specific chemical properties make it a cornerstone in the production of effective crop protection agents.
- Understanding the synthesis of Triazophos relies heavily on the availability of high-quality 1-phenylsemicarbazide.
- The chemical intermediate 1-phenylsemicarbazide offers a purity of u226598.0%, ensuring consistent results in downstream manufacturing processes.
- The application of anilinourea as a precursor highlights its significance in the agrochemical sector.
- Exploring the properties of 1-phenylsemicarbazide provides insight into its handling and storage requirements.
Key Advantages
Reliable Purity
Achieving u226598.0% assay for 1-phenylsemicarbazide ensures minimal impurities, leading to a more efficient and predictable synthesis of Triazophos.
Essential Synthesis Component
As a key intermediate for Triazophos, this chemical plays a direct role in manufacturing vital crop protection products, contributing to agricultural productivity.
Consistent Quality
The consistent chemical properties of anilinourea are vital for large-scale production, ensuring batch-to-batch uniformity in manufactured insecticides.
Key Applications
Triazophos Production
This compound is indispensable for the synthesis of Triazophos, a broad-spectrum organophosphate insecticide used globally for pest control.
Agrochemical Intermediates
Its role as an intermediate positions it within the broader agrochemical supply chain, supporting the production of various crop protection chemicals.
Organic Synthesis
Beyond its primary use, 1-phenylsemicarbazide can be a versatile building block in various organic synthesis pathways, contributing to fine chemical manufacturing.
Chemical Research
Its well-defined properties make it a subject of interest in chemical research, particularly in exploring new synthetic routes or related compounds.