What is the chemical structure of BETA-ETHOXYACRYLIC ACID ETHYL ESTER?

BETA - ETHOXYACRYLIC ACID ETHYL ESTER has the following chemical structure.The chemical structure of BETA- ETHOXYACRYLIC ACID ETHYL ESTER is as follows.
The molecular formula of BETA - ETHOXYACRYLIC ACID ETHYL ESTER is C7H12O3.The molecular formula for BETA- ETHOXYACRYLIC ACID ETHYL ESTER C7H12O3. It contains an ester functional group and an alkene group in its structure.It has an ester functional and an alkene in its structure.

The core structure has a three - carbon chain with a double bond (the alkene part).The core structure is a three-carbon chain with a double bonded (the alkene portion). Starting from one end of the three - carbon chain, at the second carbon atom (beta - position relative to the carboxylic acid group in the corresponding acrylic acid structure), an ethoxy group (-O - CH2 - CH3) is attached.The ethoxy group is attached to the second carbon atom of the three-carbon chain (beta-position relative to the carboxylic group in the acrylic acid structure). The other end of the three - carbon chain has a carboxylic acid group that has been esterified with an ethyl group (-COO - CH2 - CH3).The other end of a three-carbon chain has a carboxylic group that has been esterified by an ethyl (-COO-CH2 -CH3) group.

The general framework can be thought of as an acrylic acid derivative.The general framework is an acrylic acid derivative. Acrylic acid has the structure CH2=CH - COOH.Acrylic acid is composed of the structure CH2=CH-COOH. In BETA - ETHOXYACRYLIC ACID ETHYL ESTER, the hydrogen atom at the beta - carbon of acrylic acid is replaced by an ethoxy group, and the carboxylic acid group is esterified with an ethyl alcohol, forming the ethyl ester.BETA- ETHOXYACRYLIC ETHER is formed by replacing the hydrogen atom of the beta-carbon of acrylic acid with an ethoxyl group. The carboxylic acid is esterified using an ethyl ethanol to form the ethyl ester.

The ethoxy group attached to the beta - carbon provides certain properties to the molecule.The ethoxy group is attached to the beta-carbon and gives the molecule certain properties. The oxygen atom in the ethoxy group has lone pairs of electrons, which can participate in intermolecular interactions such as hydrogen bonding and dipole - dipole interactions.The oxygen atom of the ethoxy groups has lone electron pairs that can participate in intermolecular interaction such as hydrogen bonds and dipole-dipole interactions. The alkene double bond is a site of high electron density, making the molecule reactive towards electrophilic reagents.The double bond of the alkene is a high electron density site, which makes the molecule reactive to electrophilic reagents. The ester group also has its own characteristics.The ester group has its own characteristics. The carbonyl carbon in the ester group is electrophilic, and can potentially undergo reactions such as hydrolysis or transesterification under appropriate conditions.The carbonyl group in the ester can undergo electrophilic reactions, such as hydrolysis and transesterification, under certain conditions. Overall, the combination of these functional groups in the chemical structure of BETA - ETHOXYACRYLIC ACID ETHYL ESTER gives it specific physical and chemical properties that are useful in various chemical reactions and applications, such as in the synthesis of more complex organic compounds in the field of organic chemistry.The combination of these functional group in the chemical structure BETA - ETHOXYACRYLIC ACIDS ETHYL ESTER provides it with specific physical and chemical characteristics that are useful for various chemical reactions and applications.

What are the applications of BETA-ETHOXYACRYLIC ACID ETHYL ESTER?

BETA-ETHOXYACRYLIC ACID ETHYL ESTER has several important applications in various fields.The BETA-ETHOXYACRYLIC ACIDE ETHYL ESTER is used in many different fields.
In the pharmaceutical industry, it serves as a valuable intermediate.It is a valuable intermediary in the pharmaceutical industry. Its unique chemical structure allows it to participate in key reactions for the synthesis of diverse pharmaceutical compounds.Its unique chemistry allows it to be involved in key reactions that lead to the synthesis of various pharmaceutical compounds. For example, it can be used in the construction of complex molecular frameworks that are essential for the development of drugs targeting specific diseases.It can be used to build complex molecular structures that are crucial for the development and production of drugs that target specific diseases. It enables the formation of crucial chemical bonds during the multi - step synthesis processes, facilitating the creation of molecules with the desired biological activities.It allows the formation of important chemical bonds during multi-step synthesis processes. This facilitates the creation of molecules that have the desired biological activity.

In the agrochemical area, BETA - ETHOXYACRYLIC ACID ETHYL ESTER is also significant.BETA - ETHOXYACRYLIC ACIDS ETHYL ESTER are also important in the agrochemical field. It can be a building block in the production of pesticides and herbicides.It can be used as a building-block in the production process of pesticides and weedicides. By incorporating it into the synthesis routes, agrochemical manufacturers can develop products with enhanced effectiveness.Agrochemical manufacturers can create products with improved effectiveness by incorporating it into synthesis routes. The specific reactivity of this compound can lead to the creation of substances that are better at controlling pests and weeds, thus helping to protect crops and increase agricultural yields.This compound's specific reactivity can be used to create substances that are more effective at controlling pests and weeds. This will help to protect crops and increase agricultural production.

The material science field also benefits from this compound.This compound is also beneficial to the material sciences field. It can be utilized in the synthesis of specialty polymers.It can be used in the synthesis and production of specialty polymers. When incorporated into polymer - forming reactions, it can modify the properties of the resulting polymers.It can be incorporated into polymer-forming reactions to modify the properties of polymers. For instance, it may improve the solubility, flexibility, or adhesion properties of the polymers.It may, for example, improve the solubility or flexibility of the polymers. These modified polymers find applications in coatings, adhesives, and films.These modified polymers are used in coatings and adhesives. In coatings, the addition of polymers synthesized with BETA - ETHOXYACRYLIC ACID ETHYL ESTER can enhance the durability and resistance of the coating to environmental factors such as moisture and chemicals.In coatings, adding polymers synthesized using BETA- ETHOXYACRYLIC ACIDS ETHYL ESTER increases the coating's durability and resistance to environmental factors like moisture and chemicals. In adhesives, it can improve the bonding strength between different substrates.In adhesives it can increase the bonding strength of different substrates. And in films, it may contribute to better optical or mechanical properties.In films, it can improve optical or mechanical properties.

In the area of organic synthesis research, BETA - ETHOXYACRYLIC ACID ETHYL ESTER is a versatile reagent.BETA- ETHOXYACRYLIC ACIDS ETHYL ESTER are versatile reagents in the field of organic synthesis. Chemists use it in a wide range of reactions, including condensation reactions and cycloaddition reactions.It is used in a variety of reactions including condensation reactions and cycle addition reactions. These reactions are fundamental for constructing new organic molecules with different structures and functions.These reactions are essential for the construction of new organic molecules that have different structures and functions. Its use in research helps to expand the knowledge of organic chemistry and discover new synthetic pathways, which may ultimately lead to the development of novel materials and compounds with improved properties.Its use in the research field helps to expand knowledge of organic chemistry, and discover new synthetic paths that may lead to the development and improvement of novel materials and compounds.

What are the safety precautions when handling BETA-ETHOXYACRYLIC ACID ETHYL ESTER?

When handling BETA - ETHOXYACRYLIC ACID ETHYL ESTER, several safety precautions should be taken.Safety precautions are necessary when handling BETA- ETHOXYACRYLIC Acid ETHYL ESTER.
First, personal protective equipment (PPE) is essential.Personal protective equipment (PPE), first and foremost, is essential. Wear appropriate chemical - resistant gloves.Wear gloves that are resistant to chemicals. Nitrile gloves are often a good choice as they can provide a certain degree of protection against this chemical.Nitrile gloves can offer a degree of protection from this chemical. This helps prevent skin contact, which could lead to skin irritation, possible allergic reactions, or absorption through the skin, which may have systemic effects on the body.This prevents skin contact that could cause skin irritation, allergic reactions or absorption of the chemical through the skin.

Eye protection is also crucial.Eye protection is equally important. Safety goggles or a face shield should be worn at all times when handling the substance.Wear safety goggles or face shields at all times while handling the substance. In case of accidental splashing, these can safeguard the eyes from potential damage, such as chemical burns, which could be extremely harmful to vision.These can protect the eyes in case of accidental splashing. They can also protect them from chemical burns that could be harmful to vision.

Ventilation is key.Ventilation is essential. Work in a well - ventilated area, preferably under a fume hood.Work in an area that is well-ventilated, preferably under fume hoods. BETA - ETHOXYACRYLIC ACID ETHYL ESTER may emit vapors that can be irritating to the respiratory system if inhaled.Inhaling vapors from BETA- ETHOXYACRYLIC ACIDS ETHYL ESTER can cause irritation to the respiratory system. Adequate ventilation helps to dilute these vapors and prevent inhalation of harmful amounts.Adequate ventilation can help dilute these vapors, preventing inhalation of harmful quantities. If the area is not well - ventilated, exposure to the vapors may cause symptoms like coughing, shortness of breath, and in more severe cases, damage to the lungs.If the area is poorly ventilated, exposure can cause symptoms such as coughing, shortness - of - breath, or in more serious cases, lung damage.

Avoid any sources of ignition.Avoid ignition sources. BETA - ETHOXYACRYLIC ACID ETHYL ESTER is likely to be flammable.BETA- ETHOXYACRYLIC ACIDS ETHYL ESTER are likely to be flammable. Keep it away from open flames, sparks from electrical equipment, and hot surfaces.Keep it away form open flames, sparks and hot surfaces. A fire involving this chemical could be dangerous not only due to the combustion itself but also because the decomposition products may be toxic.This chemical can be hazardous not only because of the combustion, but also the decomposition products.

In the event of a spill, take immediate action.Take immediate action in the event of an spill. First, evacuate the area if the spill is large enough to pose a significant threat.If the spill is large, you should evacuate the area. Then, use appropriate absorbent materials to clean up the spill.Use absorbent materials to clean the spill. These materials should be disposed of properly according to local regulations.These materials must be disposed of according to local regulations. Do not rinse the spill into drains as it may contaminate water sources.Do not flush the spill down drains, as it could contaminate water.

Finally, be familiar with the first - aid procedures in case of exposure.Be familiar with first-aid procedures in the event of exposure. If skin contact occurs, immediately wash the affected area with plenty of soap and water for at least 15 minutes.If skin contact occurs immediately wash the affected area thoroughly with soap and water. This should be done for at least 15 minute. If eye contact happens, flush the eyes with copious amounts of water for an extended period and seek medical attention promptly.If eye contact occurs, flush the eyes for a long time with large amounts of water and seek medical attention immediately. In case of inhalation, move to fresh air and get medical help if symptoms such as difficulty breathing persist.If you inhale, get to fresh air immediately and seek medical attention if you experience symptoms like difficulty breathing.

What is the solubility of BETA-ETHOXYACRYLIC ACID ETHYL ESTER in different solvents?

Beta - ethoxyacrylic acid ethyl ester is an organic compound.The organic compound beta-ethoxyacrylic ester is a compound. Its solubility in different solvents can vary significantly based on the nature of the solvent.Its solubility can vary greatly depending on the solvent.
In polar solvents such as ethanol, beta - ethoxyacrylic acid ethyl ester has relatively good solubility.In polar solvents like ethanol, the beta-ethoxyacrylic ester is relatively soluble. Ethanol is a polar protic solvent.Ethanol has a protic polar nature. The polar nature of ethanol allows it to interact with the polar functional groups present in beta - ethoxyacrylic acid ethyl ester through hydrogen bonding and dipole - dipole interactions.The polar nature allows ethanol to interact with polar functional groups in beta-ethoxyacrylic acids ethyl esters through hydrogen bonding and interactions between dipoles. The ethoxy and ester groups in the compound can form favorable interactions with the hydroxyl group of ethanol, enabling the compound to dissolve.The ethoxy groups and ester groups can form favorable interactions with ethanol's hydroxyl group, allowing the compound to dissolve. This solubility is beneficial in processes where the compound needs to be in a homogeneous solution in an alcohol - based medium, for example, in some chemical reactions or formulations where ethanol is used as a reaction medium or a diluent.This solubility is useful in processes that require the compound to be in a homogeneous, alcohol-based solution. For example, ethanol can be used as a reaction or diluent in certain chemical reactions.

In non - polar solvents like hexane, the solubility of beta - ethoxyacrylic acid ethyl ester is much lower.In non-polar solvents such as hexane the solubility is much lower. Hexane is a non - polar hydrocarbon.Hexane, a non-polar hydrocarbon, is the solvent of choice. The lack of polar groups in hexane means that it cannot form strong interactions with the polar parts of the beta - ethoxyacrylic acid ethyl ester molecule.Hexane lacks polar groups, so it cannot form strong interaction with the polar parts in the beta-ethoxyacrylic acids ethyl esters. The weak van der Waals forces between hexane and the non - polar regions of the compound are not sufficient to overcome the intermolecular forces within the compound itself.The weak van der waals forces between the non-polar regions of the compound and hexane are not enough to overcome the intermolecular force within the compound. As a result, the compound has limited solubility in hexane.The compound is therefore only slightly soluble in hexane. This property can be useful in separation processes.This property can be used in separation processes. If a mixture contains beta - ethoxyacrylic acid ethyl ester and other compounds with different solubility characteristics, using hexane can help in separating non - polar components from the beta - ethoxyacrylic acid ethyl ester.Hexane can be used to separate non-polar components from beta -ethoxyacrylic acids ethyl esters in a mixture that contains other compounds with different solubility properties.

In aprotic polar solvents such as acetone, beta - ethoxyacrylic acid ethyl ester also shows good solubility.In acetone and other polar aprotic solvents, beta-ethoxyacrylic acids ethyl esters also show good solubility. Acetone has a polar carbonyl group.Acetone contains a polar group of carbonyl. It can interact with the polar groups of the beta - ethoxyacrylic acid ethyl ester through dipole - dipole interactions.It can interact through dipole-dipole interactions with the polar groups in the beta-ethoxyacrylic-acid-ethyl esters. The relatively high dielectric constant of acetone allows it to solvate the compound effectively.Acetone's relatively high dielectric constant allows it to dissolve the compound effectively. This makes acetone a good solvent for dissolving beta - ethoxyacrylic acid ethyl ester in applications where a non - protic polar environment is required, such as in some coating or adhesive formulations.Acetone is a good solvent to dissolve beta - ethoxyacrylic acids ethyl esters in applications that require a non-protic polar environment, such as some coatings or adhesive formulations.

Water, on the other hand, has limited solubility for beta - ethoxyacrylic acid ethyl ester.Water, however, is not soluble in beta - ethoxyacrylic acids ethyl esters. Although the compound has some polar functional groups, it is overall relatively hydrophobic due to the long carbon - chain moieties.The long carbon - chains of the compound make it hydrophobic despite having some polar functional groupings. The strong hydrogen - bonding network in water restricts the entry of the non - polar parts of the beta - ethoxyacrylic acid ethyl ester molecule, resulting in low solubility.The strong hydrogen-bonding network in water prevents the non-polar parts of the beta-ethoxyacrylic ethyl ester molecule from entering, resulting in a low solubility. However, small amounts of the compound may be dispersed or slightly dissolved in water under certain conditions, especially if there are surfactants present to help solubilize it by forming micelles.Under certain conditions, small amounts of this compound can be dispersed in water or slightly dissolved, especially if surfactants are present to help it dissolve by forming micelles.

What is the stability of BETA-ETHOXYACRYLIC ACID ETHYL ESTER under different conditions?

Beta - ethoxyacrylic acid ethyl ester is an organic compound with certain reactivity and stability characteristics that can vary under different conditions.The beta-ethoxyacrylic ester can have a variety of reactivity and stability characteristics.
1. Thermal StabilityThermal Stability
When exposed to heat, beta - ethoxyacrylic acid ethyl ester may undergo decomposition or polymerization reactions.The beta-ethoxyacrylic ester can undergo polymerization or decomposition reactions when exposed to heat. At relatively low temperatures, it can maintain its structure.It can maintain its structure at low temperatures. However, as the temperature rises, the ester group and the double - bond in the molecule become more reactive.As the temperature increases, the ester group in the molecule and the double-bond become more reactive. If heated above a certain threshold, the double - bond can initiate polymerization, leading to the formation of larger polymer chains.The double-bond can initiate polymerization if heated above a certain threshold. This leads to the formation of longer polymer chains. This polymerization can be accelerated in the presence of heat - activated initiators.Heat-activated initiators can accelerate this polymerization. The decomposition might also occur, breaking the ester bond and other chemical bonds in the molecule, resulting in the formation of smaller fragments such as ethoxy - containing compounds and acrylic - related derivatives.Decomposition can also occur. This involves breaking the ester bonds and other chemical bonding in the molecule.

2. Stability in the Presence of LightStability in the Presence Light
Light, especially ultraviolet (UV) light, can have an impact on the stability of beta - ethoxyacrylic acid ethyl ester.UV light can affect the stability of beta-ethoxyacrylic Acid ethyl Ester. The double - bond in the molecule is sensitive to UV radiation.UV radiation is sensitive to the double-bond in the molecule. Photochemical reactions can occur, where the energy from the light is absorbed by the double - bond, exciting the electrons.The energy of the light can be absorbed by double - bonds, which then excite the electrons. This can lead to isomerization of the double - bond or the initiation of radical - based reactions.This can lead either to the isomerization or initiation of radical-based reactions. Radical formation can then trigger further reactions such as polymerization or degradation of the molecule.Radical formation can trigger further reactions, such as polymerization and degradation of the molecule. To enhance its stability under light, additives like UV absorbers can be used.Additives like UV absorbers are useful to increase its stability when exposed to light. These additives work by absorbing the UV light before it can interact with the double - bond of the ester, thus protecting the molecule from photochemical damage.These additives protect the ester molecule by absorbing UV light before it interacts with the double-bond.

3. Chemical Stability in Different MediaChemical Stability of Different Media
In acidic media, the ester group of beta - ethoxyacrylic acid ethyl ester is susceptible to hydrolysis.The ester group in beta-ethoxyacrylic ethyl esters is susceptible to hydrolysis in acidic media. The acidic conditions can catalyze the cleavage of the ester bond, producing beta - ethoxyacrylic acid and ethanol.Acidic conditions can catalyze cleavage, resulting in beta-ethoxyacrylic and ethanol. The rate of hydrolysis depends on the concentration of the acid and the reaction temperature.The rate of hydrolysis is dependent on the concentration of acid and the temperature of the reaction. In more concentrated acid solutions or at higher temperatures, the hydrolysis occurs more rapidly.Hydrolysis occurs faster in more concentrated acid solutions and at higher temperatures.
In basic media, a similar hydrolysis reaction takes place, but the mechanism is different.In basic media a similar reaction occurs, but the mechanism differs. Bases can abstract a proton from the acidic hydrogen in the molecule (if available) or directly attack the carbonyl carbon of the ester group.Bases can either attack the carbonyl group of the ester directly or extract a proton (if there is one) from the acidic hydrogen. This base - catalyzed hydrolysis is often faster than the acid - catalyzed one under comparable conditions, leading to the formation of the carboxylate salt of beta - ethoxyacrylic acid and ethanol.This base-catalyzed reaction is often faster than an acid-catalyzed reaction under similar conditions. It leads to the formation carboxylate salts of beta-ethoxyacrylic and ethanol.
In non - reactive organic solvents, the compound can generally maintain its stability.In non-reactive organic solvents, a compound can maintain its stability. However, if the solvent contains impurities or reactive species, side reactions might occur.If the solvent contains reactive species or impurities, side reactions may occur. For example, if the solvent has traces of oxidizing agents, it could potentially oxidize the double - bond or other parts of the molecule.If the solvent contains traces of oxidizing agent, it may oxidize the double-bond or other parts of a molecule.