Pivaloyl Chloride
Pivaloyl Chloride Manufacturer Delivering High-Quality Acid Chloride for Advanced Chemical Synthesis
As a leading Pivaloyl Chloride Manufacturer, we provide a vital building block for the modern chemical industry. Pivaloyl Chloride, also known as trimethylacetyl chloride, is a highly reactive liquid used to create complex molecules. It belongs to the acid chloride family, which chemists often call “workhorses” because they react easily with other substances. This helpful trait allows factories to build new products quickly and efficiently.
In industrial chemistry, acid chlorides are essential because they act as a bridge between simple raw materials and sophisticated final products. This specific Pivaloyl Chloride Chemical is prized for its unique structure. It adds a “bulky” group of atoms to other molecules, which helps make medicines and crop-protection chemicals more stable. This stability is very important for making sure high-value products work correctly every time.
Understanding the role of an Acid Chloride Intermediate is key to appreciating high-value manufacturing. By using this compound, producers can create high-purity items that meet strict global standards. Whether it is for creating life-saving drugs or protecting our food supplies, this chemical plays a foundational role in the processes of a Chemical Intermediate Manufacturer.
Chemical Identification Table
Feature | Details |
Product Name | Pivaloyl Chloride |
Chemical Formula | C5H9ClO |
CAS Number | 3282-30-2 |
EC Number | 221-921-6 |
Molecular Weight | 120.58 |
UN Number | 2438 |
Appearance | Clear to slightly yellowish liquid |
Chemical Family | Acyl Halides |
Physical and Chemical Properties Table
Property | Description |
Boiling Point | Approximately 105°C |
Melting Point | Approximately -56°C |
Density | 0.98 g/cm³ |
Flash Point | 19°C |
Solubility | Reacts with water; mixes with organic solvents |
Chemical Nature | Corrosive and fuming |
Reactivity | Highly reactive with moisture and alcohols |
Why Choose Shital Chemical Industries
Process-Controlled Manufacturing
Carefully monitored manufacturing processes to ensure the chemical reaction stays within perfect limits.
Assured Purity Consistency
Reliable product purity in every batch so that your production lines run smoothly without errors
In-House Analytical Testing
In-house laboratory analysis and quality verification to check every lot before it is shipped.
Reliable Bulk Production Capability
Infrastructure capable of large-scale chemical production for major industrial orders.
Hazardous Chemical Handling
Experience handling moisture-sensitive and corrosive acid chlorides with high safety standards.
Reliable Global Supply
Compliance with international safety and regulatory standards for global trade.
Packaging and Export Capability
Industrial Drum Packaging
Industrial drum packaging specifically designed for safe chemical transport.
Moisture-Protected Sealing
Moisture-resistant sealed containers to keep the chemical fresh and prevent reactions with air.
Hazard labeling Standards
Proper hazard labeling that follows international shipping rules for corrosive materials.
International Transport Classification
Compliance with chemical transportation regulations for sea, road, and air freight.
Export Documentation
Complete export documentation including a Certificate of Analysis (COA) and MSDS.
Global shipping Capability
Efficient supply chain to ensure international customers receive their orders on time.
Applications of Chloroacetyl Chloride
This compound is a cornerstone for many pharmaceutical manufacturing companies. It is used to add a specific part to a drug molecule that makes the medicine more stable. By acting as a “protecting group,” it allows chemists to build complex parts of a medicine without damaging the rest of the structure.
In the medical world, it is often used to produce antibiotics and antiviral treatments. Because it is a high-quality product from a reliable Pivaloyl Chloride Supplier, it helps drug makers create tablets and injections that are safe for patients. This makes it one of the most important tools in modern medical science.
Agrochemical production plants rely on this chemical to create modern pesticides and herbicides. In farming, it is important that chemicals target only specific pests and do not harm the crops or the environment. Pivaloyl Chloride helps in building these smart molecules that protect our food sources and help farmers grow more food.
By using this intermediate, manufacturers can create products that are effective even in very small amounts. This efficiency is vital for modern farming. It ensures that the final products are strong enough to handle tough weeds and insects while remaining safe to store in a warehouse.
General chemical intermediate manufacturing industries use this compound as a versatile tool in many different reactions. It is excellent for a process called “acylation,” where a specific group of atoms is added to another molecule to change its properties. This ability to transform a molecule makes it a favorite in research labs.
Beyond simple reactions, it is used to create esters and amides that are needed for various industrial fluids. Its predictable behavior in the lab allows scientists to design new ways to create innovative products. It is a reliable choice for anyone working in the field of advanced organic chemistry.
Specialty chemical laboratories use this substance to create high-performance additives. These additives might be used to improve the smell of a perfume, the color of a dye, or the strength of a cleaning agent. Because it has a very specific “bulky” shape, it helps in creating unique features that other chemicals simply cannot provide.
In these specialized industries, the focus is on high quality and unique functions. Pivaloyl Chloride provides the exact chemical structure needed for these niche products. It allows for the creation of chemicals that solve very specific industrial problems, such as resisting heat or sticking better to surfaces.
Polymer production facilities use acid chlorides to help create high-strength plastics and resins. When added to a plastic chain, the pivaloyl group can change how the material reacts to heat or sunlight. This is very important for creating materials used in car parts, electronics, and even airplane components.
Resins made with this intermediate often have better durability and resistance to chemicals. By including this compound, manufacturers can produce advanced materials that last longer and perform better in tough conditions. It is a key ingredient in making the next generation of high-tech plastics.
The fine chemical industry focuses on producing very pure substances in precise amounts. Companies in this sector use Pivaloyl Chloride to create “custom” molecules for their clients. These might be used in everything from food additives to specialized laboratory tools.
Because this chemical is so reactive, it reduces the number of steps needed in a long chemical process. This saves time and money for the factory. It is a preferred choice for creating high-purity chemicals where there is no room for mistakes or contamination.
FAQs
What is Pivaloyl Chloride used for?
It is mainly used as a building block to create other chemicals, especially in the production of medicines, farm chemicals, and high-quality plastics.
Is Pivaloyl Chloride a hazardous chemical?
Yes, it is hazardous. It is corrosive, which means it can burn skin, and it is also flammable. It must be handled with great care by professionals.
How should Pivaloyl Chloride be stored safely?
It must be stored in a cool, dry place. Because it reacts with water and air, the containers must be kept tightly sealed at all times.
Which industries typically use this compound?
The most common users are pharmaceutical companies, agrochemical plants, and factories that make specialty plastics and resins.
Can Pivaloyl Chloride be supplied in large quantities?
Yes, as a manufacturer, we can provide this chemical in large industrial drums or bulk shipments to meet the needs of big factories.
Why is Pivaloyl Chloride valuable in chemical synthesis?
It is valuable because it is very reactive, which makes chemical reactions happen more easily. Its specific shape also helps make final products more stable.