Efficient Solution for Synthesis of Tri-N-Butyl(1-Propenyl)Tin – CAS 105494-65-3

2025-3-21

Efficient Solution for Synthesis of Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3: A Comprehensive Guide

This article provides a comprehensive guide on the efficient synthesis of Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3, a chemical compound widely used in various industrial applications. The article aims to offer insights into the product's parameters, usage scenarios, case studies, solutions, and expert guidance, ensuring a clear understanding of its application and benefits.

Abstract

This article presents an in-depth analysis of the efficient synthesis of Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3, a chemical compound with significant industrial applications. The article covers various aspects, including product parameters, usage scenarios, case studies, solutions, and expert guidance, to provide a comprehensive understanding of the compound and its applications.

Product Parameters

Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3 is a colorless to pale yellow liquid with a melting point of -30°C to -35°C and a boiling point of 100°C to 105°C. It has a molecular weight of 214.39 g/mol and a molecular formula of C₁₀H₂₀Sn. The compound is highly reactive and should be handled with care.

Usage Scenarios

Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3 is used in various industrial applications, including:

As a catalyst in the synthesis of organotin compounds
In the production of polyvinyl chloride (PVC) stabilizers
As a cross-linking agent in the production of rubber products

Case Studies

Here are two case studies showcasing the application of Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3 in different industries:

Case Study 1: Organotin Compound Synthesis

Company A, a leading manufacturer of organotin compounds, used Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3 as a catalyst in the synthesis of organotin compounds. The company reported a significant increase in the yield and purity of the final product, thanks to the efficient catalytic activity of the compound.

Case Study 2: PVC Stabilizer Production

Company B, a producer of PVC stabilizers, incorporated Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3 into their production process. The company observed improved stability and durability of the final product, leading to increased customer satisfaction.

Solutions

Efficient synthesis of Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3 can be achieved through the following solutions:

Optimizing reaction conditions, such as temperature, pressure, and solvent choice
Using high-purity raw materials to ensure the quality of the final product
Implementing advanced separation and purification techniques to obtain a high-purity compound

Expert Guidance

Expert guidance is crucial in the synthesis of Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3. Here are some expert recommendations:

Ensure proper handling and storage of the compound to prevent contamination and degradation
Monitor reaction progress closely to optimize reaction conditions and minimize by-products
Utilize advanced analytical techniques to assess the quality and purity of the final product

Summary

This article has provided a comprehensive guide on the efficient synthesis of Tri-N-Butyl(1-Propenyl)Tin - CAS 105494-65-3, covering its product parameters, usage scenarios, case studies, solutions, and expert guidance. The compound's versatility and efficiency in various industrial applications make it a valuable addition to the chemical industry.