Q: How to Get Sample of 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt?
A: ample within 500g could be sent for free once buyer’s DHL account is advised for freight collect or courier cost is paid. The courier cost could be deducted when bulk order is placed.
Q: What is Lead Time of Cas No: 52556-42-0?
A: Generally, cargo could be loaded on ship in about two weeks after the date of receiving prepayment or L/C. Sometimes one week earlier or later.
Q: How about the 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt of ZXCHEM?
Introduction: Chemistry has provided humanity with a myriad of compounds that serve as building blocks for various industries. One such compound is 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt, identified by its Chemical Abstracts Service (CAS) number: 52556-42-0. This article delves into the properties, synthesis, and applications of this intriguing chemical compound.
Chemical Structure and Properties: 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt, with its molecular formula C6H12O3, is a diol compound characterized by its allyloxy group and two hydroxyl groups attached to adjacent carbon atoms in a propane-based carbon backbone. This structural arrangement contributes to its unique properties and versatility in various applications.
Synthesis: The synthesis of 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt typically involves chemical reactions that introduce the allyloxy group to a propanediol precursor. One common method includes the reaction of allyl alcohol with 1,2-propanediol under controlled conditions. This reaction may be catalyzed by acids or bases, depending on the desired outcome and purity of the product.
Polymer and Resin Industry: One of the prominent applications of 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt is its use as a monomer in the polymer and resin industry. It can undergo polymerization to form polymers and resins with diverse properties. These polymers find applications in coatings, adhesives, and even as components in advanced composite materials.
Surface Coatings and Adhesives: The compound’s allyloxy functionality imparts adhesive and cross-linking properties to polymers derived from it. These attributes make it an attractive ingredient in surface coatings and adhesives used in industries ranging from automotive to electronics.
Biocompatible Polymers: Owing to its unique molecular structure, 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt can be utilized in the synthesis of biocompatible polymers. These polymers find applications in medical devices, drug delivery systems, and tissue engineering, where biocompatibility and controlled release properties are essential.
Functionalized Materials: Researchers have explored the incorporation of 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt-derived polymers into functionalized materials. These materials have been studied for potential use in sensors, membranes, and other advanced technologies.
Green Chemistry Initiatives: The allyloxy group in the compound’s structure also offers opportunities for functionalization and modification through sustainable and green chemistry approaches. This aligns with the growing demand for environmentally friendly processes and products.
Conclusion: 3-Allyloxy-2-Hydroxy-1-Propane, Sodium Salt, identified by its CAS number 52556-42-0, exemplifies the versatility of chemical compounds in various industries. Its unique structure, allyloxy functionality, and diverse applications highlight its significance as a building block in the realm of polymers, resins, coatings, adhesives, and functional materials. As technology and innovation progress, this compound may continue to contribute to advancements in materials science, benefiting both industry and society at large.