What is the CAS number of 2-(Chloromethyl)acrylic acid methyl ester?

To find the CAS number of 2-(Chloromethyl)acrylic acid methyl ester, one can refer to chemical databases. The CAS (Chemical Abstracts Service) number is a unique identifier for chemical substances.The CAS number (Chemical Abstracts Service), is a unique identifier of chemical substances.
Commonly used chemical databases include SciFinder, Reaxys, and ChemSpider.SciFinder, Reaxys and ChemSpider are some of the most commonly used chemical databases. SciFinder is a comprehensive database provided by the American Chemical Society.SciFinder is an extensive database provided by the American Chemical Society. It contains a vast amount of chemical information including CAS numbers.It contains a large amount of chemistry information, including CAS numbers. Reaxys is another powerful database with extensive chemical data.Reaxys, another powerful database that contains extensive chemical data, is also available. ChemSpider, which is freely accessible, also allows users to search for chemical compounds and obtain their CAS numbers.ChemSpider is a free database that allows users to search chemical compounds and obtain CAS numbers.

By entering the name "2-(Chloromethyl)acrylic acid methyl ester" into these databases, one can retrieve the corresponding CAS number. However, without actually accessing these databases during the writing of this response, I cannot directly provide the specific CAS number.I am unable to provide a specific CAS number without accessing these databases when writing this response.

It's important to note that when working with chemical substances, having the CAS number is crucial.When working with chemicals, it's important to have the CAS number. It helps in accurately identifying the compound in various applications such as regulatory compliance, chemical synthesis, and safety data sheet preparation.It is used to accurately identify the compound for various applications, such as regulatory compliance and preparation of safety data sheets. The CAS number ensures that there is no confusion regarding the identity of the chemical, as different names may be used in different regions or industries.The CAS number helps to avoid confusion about the identity of a chemical as different names are used in different industries or regions.

In research laboratories, when ordering chemicals or conducting experiments, the CAS number is often required.CAS numbers are often required in research laboratories when ordering chemicals or performing experiments. It enables suppliers to precisely provide the correct chemical.It allows suppliers to provide the exact chemical. Additionally, in environmental and safety assessments, the CAS number helps in gathering information about the properties, toxicity, and environmental fate of the compound.The CAS number is also useful in environmental and safety assessments to gather information about the properties, toxicities, and environmental fates of the compound. Overall, while the specific CAS number for 2-(Chloromethyl)acrylic acid methyl ester is not provided here, using the appropriate chemical databases is the reliable way to obtain this important identifier.

What are the applications of 2-(Chloromethyl)acrylic acid methyl ester?

2 - (Chloromethyl)acrylic acid methyl ester has several important applications.
In the field of polymer synthesis, it serves as a valuable monomer.It is a valuable monomer in the field of polymerization. By participating in polymerization reactions, it can introduce specific functional groups into the polymer chains.It can introduce functional groups into polymer chains by participating in polymerization. The chlorine - containing and ester - containing structures in the molecule endow the resulting polymers with unique properties.The unique properties of the polymers are due to the chloromethyl and ester-containing structures within the molecule. For example, polymers synthesized from it may have enhanced reactivity due to the presence of the chloromethyl group.The presence of the chloromethyl groups in the molecule may enhance the reactivity of polymers synthesized. This can be useful in the preparation of polymers that can be further modified through reactions such as nucleophilic substitution.This can be used to prepare polymers that are further modified by nucleophilic substitutes. The ester group can also influence the solubility, flexibility, and compatibility of the polymers, making them suitable for various applications like coatings and adhesives.The ester group also influences the solubility and compatibility of polymers. This makes them suitable for different applications such as coatings and adhesives.

In the production of specialty chemicals, 2 - (Chloromethyl)acrylic acid methyl ester is an important intermediate. It can be used in a series of chemical reactions to build more complex organic molecules.It can be used to build more complex molecules through a series chemcial reactions. For instance, the chloromethyl group can be reacted with different nucleophiles, such as amines, alcohols, or thiols.The chloromethyl group, for example, can be react with different nucleophiles such as amines or alcohols. This allows for the creation of a wide range of compounds with diverse functional groups, which are often used in pharmaceuticals, agrochemicals, and dyes.This allows the creation of a variety of compounds with diverse groups of functionalities, which are used in pharmaceuticals and dyes. In the pharmaceutical industry, the modified compounds may exhibit specific biological activities, potentially acting as active ingredients or key intermediates in drug synthesis.In the pharmaceutical industry the modified compounds can exhibit specific biological activity, and may act as active ingredients or key intermediaries in drug synthesis.

In the area of surface modification, the compound can be used to modify the surfaces of various materials.The compound can be used in the area of surface modification to modify the surfaces on various materials. When applied to the surface of a substrate, it can react with the surface groups, either through the reactivity of the double bond or the chloromethyl group.It can react with surface groups when applied to a substrate's surface, either by the reactivity or the chloromethyl group. This enables the introduction of functional groups onto the surface, which can change the surface properties.This allows the introduction of functional group onto the surface which can change its properties. For example, it can improve the wettability, adhesion, or biocompatibility of the surface.It can, for example, improve the surface's wettability, adherent or biocompatibility. In the case of materials used in medical devices, modifying the surface with this compound can enhance their interaction with biological tissues, reducing the risk of rejection or improving the performance of drug - delivery systems.Modifying the surface of medical devices with this compound can improve their interaction with biological tissue, reducing the chance of rejection, or improving the performance and efficiency of drug-delivery systems.

Overall, 2 - (Chloromethyl)acrylic acid methyl ester plays a significant role in multiple industries, facilitating the production of new materials, chemicals, and products with improved and specialized properties.

What is the purity of 2-(Chloromethyl)acrylic acid methyl ester usually available?

The purity of commercially available 2-(Chloromethyl)acrylic acid methyl ester can vary significantly depending on several factors. In general, high - quality industrial - grade products typically have a purity in the range of 95% - 99%.In general, industrial-grade products of high quality have a range of purity between 95% and 99%.
For research - grade 2-(Chloromethyl)acrylic acid methyl ester, suppliers often strive to achieve purities of 98% or higher. This high purity is crucial in laboratory settings where precise and reproducible results are required.This high purity is essential in laboratories where precise and repeatable results are required. For example, in organic synthesis experiments, even a small amount of impurities can potentially interfere with reaction mechanisms, leading to unexpected by - products or incomplete reactions.In organic synthesis experiments for example, even a small amount can interfere with reaction mechanisms and lead to unexpected by-products or incomplete reactions.

Lower - purity versions, around 90% - 95%, might also be available.There may also be lower - purity versions available, ranging from 90% to 95%. These could be more suitable for large - scale industrial applications where the cost - effectiveness of the starting material is a significant consideration.These versions may be better suited for large-scale industrial applications, where cost-effectiveness of the starting material plays a major role. However, the presence of impurities in these cases needs to be carefully evaluated.In these cases, it is important to carefully evaluate the presence of impurities. Impurities might include unreacted starting materials from the synthesis process of 2-(Chloromethyl)acrylic acid methyl ester, such as chloromethylating agents or acrylic acid derivatives. They could also be degradation products formed during storage or handling.They could also be degradation by-products formed during storage and handling.

Some less - common, very low - purity samples (below 90%) might be found in certain situations, perhaps as a result of improper storage, long - term exposure to environmental factors like moisture or heat, or in cases where the purification process was not carried out thoroughly.In certain situations, you may find some samples with very low purity (below 90%). This could be due to improper storage, exposure to environmental factors such as moisture or heat for a long time, or a lack of thorough purification. But such samples are not typically the norm in regular commercial supply chains.These samples are not the norm for commercial supply chains.

It's important to note that the purity of 2-(Chloromethyl)acrylic acid methyl ester can be determined through various analytical techniques. Gas chromatography (GC) is a commonly used method to accurately measure the purity by separating and quantifying the different components in the sample.Gas chromatography is a method that is commonly used to measure purity accurately by separating the components of the sample and quantifying them. Nuclear magnetic resonance (NMR) spectroscopy can also provide information about the chemical structure and the presence of impurities, although it is more focused on structural elucidation rather than a direct measurement of purity like GC.Nuclear magnetic resonance spectroscopy (NMR) can also provide information on the chemical structure and impurities. However, it is more focused in elucidating the structural elucidation than a direct measure of purity.

When purchasing 2-(Chloromethyl)acrylic acid methyl ester, it is essential to check the product specifications provided by the supplier regarding purity. This ensures that the material meets the requirements of the intended application, whether it's for high - precision research or large - scale industrial manufacturing.This will ensure that the material is suitable for the intended application.

Is 2-(Chloromethyl)acrylic acid methyl ester hazardous to human health?

2 - (Chloromethyl)acrylic acid methyl ester can be hazardous to human health.
Firstly, it is likely to be an irritant.It is most likely an irritant. Contact with the skin may lead to redness, itching, and possible burns.Contact with the skin can cause redness, itchiness, and even burns. When it comes into contact with the eyes, it can cause severe eye irritation, potentially leading to damage to the cornea and other eye tissues, which may affect vision.Contact with the eyes can cause severe irritation and damage to the cornea, other eye tissues, and even the vision. Inhalation of its vapors can irritate the respiratory tract, causing coughing, shortness of breath, and may lead to more serious conditions like bronchitis or even pulmonary edema if exposure is prolonged or at high concentrations.Inhaling its vapors may cause irritation to the respiratory tract. This can lead to coughing and shortness of breathe, as well as more serious conditions such bronchitis, or even pulmonary swelling, if exposure is prolonged.

Secondly, this compound may pose risks to the central nervous system.Second, this compound can pose risks to the nervous system. Exposure, especially through inhalation or ingestion, could potentially cause symptoms such as dizziness, headache, confusion, and in severe cases, it might affect cognitive functions and motor skills.Exposure to this compound, particularly through ingestion or inhalation, can cause symptoms like dizziness, headaches, confusion, and, in severe cases, cognitive functions and motor abilities. It may also interfere with the normal functioning of nerve cells, disrupting the transmission of nerve impulses in the body.It can also disrupt the transmission of nerve signals in the body, causing dizziness, headaches and confusion.

Moreover, from a long - term perspective, there are concerns about its potential carcinogenicity.In addition, its potential carcinogenicity is a concern from a long-term perspective. Although more research may be needed to fully establish this, some related chemicals with similar structures have been found to have carcinogenic properties.Despite the fact that more research is needed to confirm this, it has been shown that some chemicals with similar structure have carcinogenic qualities. Prolonged and repeated exposure to 2 - (Chloromethyl)acrylic acid methyl ester could potentially increase the risk of developing certain types of cancers over time.

In addition, if accidentally ingested, it can cause damage to the digestive system.It can also cause digestive system damage if accidentally consumed. It may lead to abdominal pain, nausea, vomiting, and could potentially harm the lining of the stomach and intestines, interfering with normal digestive processes.It can cause abdominal pain, nausea and vomiting. It could also damage the lining of your stomach and intestines and interfere with normal digestion. Overall, appropriate safety measures should be taken when handling this chemical to prevent exposure and protect human health.To protect human health and prevent exposure, it is important to take the appropriate safety measures when handling this chemical.

What is the stability of 2-(Chloromethyl)acrylic acid methyl ester?

2 - (Chloromethyl)acrylic acid methyl ester is a chemical compound with certain stability characteristics.
In terms of thermal stability, this compound may be prone to decomposition at relatively high temperatures.This compound is susceptible to decomposition when heated to high temperatures. Heat can potentially initiate chemical reactions that break the molecular bonds within the structure.Heat can initiate chemical reactions which break the molecular bonding within the structure. The presence of the chlorine - containing chloromethyl group and the double bond in the acrylic acid ester moiety can make it sensitive to thermal stress.The double bond and the chloromethyl group in the acrylic ester moiety make it susceptible to thermal stress. When heated, the chlorine atom might be susceptible to elimination reactions, or the double bond could participate in polymerization or other rearrangement reactions, which would lead to a change in the chemical structure and thus a loss of its original form.The chlorine atom may be susceptible to elimination reactions when heated. Or, the double bond might participate in polymerization, rearrangement, or other rearrangement processes, leading to a change in its chemical structure.

Regarding its stability in the presence of moisture, it can be reactive.It can be reactive in terms of its stability when it is exposed to moisture. The ester group is subject to hydrolysis in the presence of water, especially under acidic or basic conditions.The ester group can be hydrolyzed in the presence water, particularly under acidic or base conditions. In an aqueous environment, water molecules can attack the carbonyl carbon of the ester group, leading to the formation of the corresponding carboxylic acid and methanol.In an aqueous atmosphere, water molecules can attack carbonyl carbons of the ester groups, resulting in the formation of carboxylic acids and methanol. The presence of the chloromethyl group may also influence this process.This process may be affected by the presence of a chloromethyl group. Chlorine can be displaced in some cases during hydrolysis reactions, further complicating the degradation pathway.In some cases, chlorine can be replaced during hydrolysis reactions. This complicates the degradation pathway.

In terms of storage stability, it should be stored under proper conditions.It is important to store it in the right conditions for storage stability. Storing it in a cool, dry place away from sources of heat and moisture is crucial.It is important to store it in a dry, cool place away from heat and moisture sources. If exposed to air for an extended period, oxidation reactions might occur, especially due to the presence of the double bond, which is an electron - rich site that can react with oxygen in the air.When exposed to air, oxidation reactions may occur. This is due to the double bond which has an electron-rich site that can react to oxygen in the atmosphere. This could result in the formation of peroxides or other oxidized products, affecting the quality and stability of the compound.This could lead to the formation of peroxides and other oxidized products that can affect the quality and stability.

In general, 2 - (Chloromethyl)acrylic acid methyl ester has relatively limited stability under various common environmental conditions. Precautions need to be taken during handling, storage, and use to maintain its integrity and prevent unwanted chemical reactions.To maintain its integrity, it is important to take precautions during handling, storage and use.