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Bio-2-octyl Methacrylate


Properties
Product Name Bio-2-Octyl methacrylate
Cas Number 5137-55-3
Formula C12H22O2
Molar Mass 198.31 g/mol
Boiling Point 246 °C
Density 0.87 g/cm³
Refractive Index 1.434
Flash Point 100 °C
Viscosity 2.1 mPa·s
Vapor Pressure 0.02 mmHg at 20 °C
Solubility In Water Insoluble
Appearance Clear liquid
Odor Characteristic ester-like
Stability Stable under recommended storage conditions
FAQ

What is the chemical structure of Bio-2-Octyl methacrylate?

Bio - 2 - Octyl methacrylate likely refers to a derivative of 2 - Octyl methacrylate with some bio - related modifications.Bio - 2 Octyl Methacrylate is likely to refer to a derivative 2 Octyl Methacrylate that has been modified in a bio-related manner. However, without further context, we'll first describe the basic structure of 2 - Octyl methacrylate.We will first describe the 2 - Octyl Methacrylate structure without any further context.
The chemical formula of 2 - Octyl methacrylate is C12H22O2.The chemical formula for 2 - Octyl Methacrylate (C12H22O2) is C12H22O2. Its structure can be understood by looking at its components.You can understand its structure by looking at the components. Methacrylate is the base part.The base part is methacrylate. Methacrylate has a structure where there is a carbon - carbon double bond (C = C) attached to a carbonyl group (C = O) with an oxygen atom in between.The structure of methacrylate is a double carbon-carbon bond (C=C) attached to an oxygen atom (C=O) with a carbonyl group in between. This part is represented as - CH2 = C(CH3) - COO -This part is represented by - CH2 = COO – C(CH3).

The "2 - Octyl" part indicates an octyl group attached to the oxygen atom of the methacrylate ester group.The "2 – Octyl" part refers to an octyl chain attached to the oxygen of the methacrylate ester group. An octyl group is an 8 - carbon alkyl chain.An octyl chain is an 8-carbon alkyl. The general formula for an alkyl chain is CnH2n + 1.Alkyl chains are generally represented by the formula CnH2n+1. In the case of octyl, n = 8, so the octyl group has the formula C8H17.The octyl chain has a formula of C8H17. When this octyl group is attached to the oxygen of the methacrylate group through an ester bond, the full structure of 2 - Octyl methacrylate is formed.The full structure of 2-Octyl-methacrylate is created when this octyl is attached to oxygen of the methacrylate through an ester.

The structure of 2 - Octyl methacrylate thus consists of a relatively long non - polar alkyl chain (the octyl part) attached to a polar methacrylate moiety.The structure of 2-Octyl methacrylate is composed of a relatively large non-polar alkyl (the octyl portion) attached to a methacrylate moiety. The double bond in the methacrylate part is reactive and can participate in polymerization reactions.The double bond of the methacrylate moiety is reactive and can be involved in polymerization reactions. This makes 2 - Octyl methacrylate useful in the synthesis of various polymers.This makes 2 octyl methacrylate a useful ingredient in the synthesis and characterization of polymers. For example, it can be polymerized with other monomers to form copolymers that may have unique properties such as good film - forming ability, flexibility, and water - resistance due to the long alkyl chain providing hydrophobicity.It can be copolymerized with monomers to create copolymers which may have unique properties, such as film-forming ability, flexibility and water-resistance due to the hydrophobicity of the long alkyl chains.

If we consider the "Bio - " prefix, it could imply that there are some additional functional groups added to the 2 - Octyl methacrylate structure that are relevant to biological systems.If we consider the prefix "Bio -", it could imply there are some functional groups added to 2 - Octyl Methacrylate that are relevant to biosystems. This could be something like a sugar moiety attached to the molecule to make it more biocompatible or a group that can target specific biological receptors.This could be a sugar moiety added to the molecule in order to make it biocompatible, or a group which can target specific biological targets. But without more detailed information, we can only speculate about the exact nature of these bio - related modifications.We can only speculate on the exact nature of bio-related modifications without more information. Overall, the basic structure of 2 - Octyl methacrylate serves as a starting point for understanding any potential bio - derivatives, with the key features being the reactive double bond, the ester linkage, and the long alkyl chain.The basic structure of 2- Octyl methacrylate is a good starting point to understand any potential bio-derivatives. The key features are the reactive double bonds, the ester links, and the long chain.

What are the main applications of Bio-2-Octyl methacrylate?

Bio - 2 - Octyl methacrylate is a material with several important applications.Bio - 2 Octyl Methacrylate has many important applications.
One of its significant uses is in the medical field.It is used in tissue adhesives. It is employed in tissue adhesives.It is used in tissue adhesives. These adhesives play a crucial role in wound closure.These adhesives are crucial in wound closure. Instead of using traditional sutures in some cases, 2 - Octyl methacrylate - based adhesives can be applied directly to the wound.In some cases, adhesives based on 2 - Octylmethacrylate can be used directly on the wound instead of traditional sutures. They form a strong bond, sealing the edges of the wound.They form a strong adhesive, sealing the edges. This has several advantages.This has many advantages. For instance, it can reduce the risk of infection as it creates a barrier against external contaminants.It can reduce the risk for infection by creating a barrier to external contaminants. It also promotes faster healing compared to some other methods, as it minimizes trauma to the surrounding tissue.It promotes faster healing than some other methods because it minimizes trauma on the surrounding tissue. Moreover, it can be used in hard - to - suture areas, such as in the vicinity of sensitive nerves or in areas where the skin is thin.It can also be used on areas that are difficult to suture, such as near sensitive nerves or thin skin.

In the dental area, Bio - 2 - Octyl methacrylate has applications in dental restorations.Bio - 2 Octyl Methacrylate is used in dental restorations. It can be part of the materials used to bond dental fillings to the tooth structure.It can be used as a component of materials to bond dental fillings onto the tooth structure. The adhesive properties of this compound help in creating a secure and long - lasting connection.This compound's adhesive properties help to create a long-lasting and secure connection. This ensures that the filling remains in place, preventing issues like leakage around the filling which could lead to further tooth decay.This helps to keep the filling in place and prevents issues such as leakage around it, which could lead further tooth decay. It also contributes to the overall strength and durability of the dental restoration, allowing patients to use their teeth normally without the risk of the filling coming loose easily.It also adds to the overall durability and strength of the dental restoration. Patients can use their teeth as normal without worrying about the filling coming out.

Another area of application is in the production of certain medical devices.It can also be used in the production of medical devices. For example, it can be used to bond different components of catheters.It can be used, for example, to bond the different components of catheters. The reliable adhesion provided by 2 - Octyl methacrylate ensures that the various parts of the catheter, such as the tube and any attached connectors, stay firmly together.The 2 - Octyl Methacrylate provides a reliable adhesion that ensures the various components of the catheter such as the tube, and any attached connectors stay firmly together. This is essential for the proper functioning of the catheter, as any separation could lead to problems during insertion or use, potentially causing harm to the patient.This is vital for the proper function of the catheter as any separation can cause problems during insertion and use, which could potentially harm the patient.

In the field of ophthalmology, it may be used in procedures related to corneal repair.It can be used for procedures related to corneal repairs in the field of ophthalmology. The ability to adhere to the delicate corneal tissue makes it a valuable option for treating corneal wounds or performing certain corneal surgeries.Its ability to adhere to delicate corneal tissue makes this a valuable option when treating corneal injuries or performing certain corneal surgery. It helps in maintaining the integrity of the cornea, which is crucial for clear vision.It helps maintain the integrity of corneal tissue, which is essential for clear vision.

Overall, Bio - 2 - Octyl methacrylate's adhesive properties make it a versatile and important material across multiple medical - related disciplines, contributing to improved patient outcomes and better - functioning medical products.Overall, Bio -2 - Octyl Methacrylate's adhesion properties make it an important and versatile material across multiple medical-related disciplines, contributing to better patient outcomes and better-functioning medical products.

What are the properties of Bio-2-Octyl methacrylate?

Bio - 2 - Octyl methacrylate has several notable properties.Bio - 2 Octyl Methacrylate is a product with several notable properties.
Physical Properties

In terms of appearance, it is typically a liquid.It is usually a liquid. It has a specific viscosity which affects its flow characteristics.It has a viscosity that affects the flow characteristics. This viscosity is important in various applications.This viscosity plays a role in many applications. For instance, in medical uses where it might be applied as a coating or in a bonding process, a suitable viscosity ensures proper spreading and adhesion.A suitable viscosity is important for medical applications where it may be used as a coating, or in a bonding procedure.

It has a defined boiling point.It has a defined melting point. The boiling point is relevant when considering processes that might involve heating it, such as during purification or in manufacturing steps where separation from other substances is required through distillation.The boiling point is important when considering processes which may involve heating, such as purification or manufacturing steps that require separation from other substances through distillation. Its density is another key physical property.Another important physical property is its density. Knowing the density helps in accurately measuring and formulating mixtures that contain Bio - 2 - Octyl methacrylate.Knowing the density is important for accurately measuring and formulating mixtures containing Bio - 2 Octyl methacrylate. For example, if it is to be combined with other liquid components in a specific ratio, density information is crucial for precise volume - to - mass conversions.If it is to be mixed with other liquid components at a specific ratio, the density information is vital for precise volume-to-mass conversions.

Chemical Properties

Bio - 2 - Octyl methacrylate contains a methacrylate functional group.Bio - 2 Octyl Methacrylate contains the methacrylate functional groups. This group is reactive, enabling it to participate in polymerization reactions.This group is reactive and can participate in polymerization. Through polymerization, it can form polymers with different chain lengths and structures, depending on the reaction conditions and the presence of initiators or catalysts.Polymerization can produce polymers of different chain lengths or structures depending on the reaction conditions, catalysts, and initiators. These polymers can have a wide range of properties, from being flexible to more rigid materials.These polymers have a variety of properties ranging from flexible materials to rigid materials.

It has chemical stability under certain conditions.It is chemically stable under certain conditions. However, like many organic compounds, it can be affected by strong acids, bases, or oxidizing agents.Like many organic compounds, however, it can be affected negatively by strong acids, bases or oxidizing agents. In the presence of these substances, chemical reactions may occur that can degrade or modify its structure.Chemical reactions can occur in the presence of these substances that can alter or degrade its structure. This stability is crucial in storage and handling, as well as in its end - use applications.This stability is important for storage, handling and end-use applications. For example, in a medical device where it is used as a component, it needs to maintain its integrity in the physiological environment of the human body without undergoing unwanted chemical reactions.In a medical device, for example, where it is used in a component, the material must maintain its integrity without undergoing unwanted chemistry reactions.

Biological Properties

The "Bio -" prefix in its name indicates its potential biological relevance.The "Bio-" prefix indicates that it may have biological relevance. It may have some degree of biocompatibility, which is extremely important if it is intended for medical or biological applications.It may have a certain degree of biocompatibility. This is important if the product is intended for medical and biological applications. Biocompatibility means that it does not cause significant adverse reactions when in contact with biological tissues, cells, or fluids.Biocompatibility is the ability to not cause adverse reactions in biological tissues, cells or fluids. For example, if it is used in wound dressings or as a component in implantable devices, it should not trigger an immune response, inflammation, or cytotoxicity.If it is used as a component of implantable devices or wound dressings, it shouldn't trigger an immune reaction, inflammation, or cell cytotoxicity. However, the exact level of biocompatibility can depend on factors such as the purity of the compound, its surface characteristics, and the duration of contact with biological systems.The exact level of biocompatibility depends on factors like the purity of the compound and its surface characteristics as well as the duration of contact.

How is Bio-2-Octyl methacrylate synthesized?

Bio - 2 - Octyl methacrylate can be synthesized through the following general steps:The following general steps can be used to synthesize Bio - 2 Octyl Methacrylate:
1. Preparation of starting materialsPrepare the starting materials
One of the key starting materials is 2 - octanol.It is a key ingredient in many products. It can be obtained from natural sources or synthesized through chemical processes.It can be synthesized or obtained from natural sources. For example, it can be produced by the hydrogenation of 2 - octanone.It can be made by hydrogenating 2 - octanone, for example. Another important starting material is methacrylic acid.Methacrylic acid is another important starting material. Methacrylic acid can be synthesized via different routes, such as the oxidation of isobutylene or the hydrolysis of methacrylonitrile.Methacrylic can be synthesized in different ways, including the oxidation or hydrolysis of isobutylene.

2. Esterification reaction
The synthesis of Bio - 2 - Octyl methacrylate mainly involves an esterification reaction between 2 - octanol and methacrylic acid.The main reaction in the synthesis of Bio- 2 – Octyl Methacrylate is an esterification between 2 – octanol, and methacrylic acids. This reaction is typically catalyzed by an acid catalyst.This reaction is usually catalyzed with an acid catalyst. Sulfuric acid is a commonly used catalyst in such reactions.In such reactions, sulfuric acid is often used as a catalyst. However, in some cases, to avoid side - reactions and for more environmentally friendly processes, solid - acid catalysts like ion - exchange resins can also be used.Solid - acid catalysers like ion-exchange resins are also used in some cases to avoid side-reactions and for environmentally-friendly processes.
The reaction equation is as follows:The reaction equation is:
Methacrylic acid + 2 - octanol = Bio - 2 - Octyl methacrylate + waterMethacrylic Acid + 2 octanol= Bio - 2 Octyl methacrylate plus water
The reaction is an equilibrium reaction.The reaction is an equilibrium one. To drive the reaction towards the formation of the ester (Bio - 2 - Octyl methacrylate), several strategies can be employed.There are several ways to drive the reaction in the direction of the ester (Bio- 2 - Octylmethacrylate). One common approach is to remove water as it is formed.One common method is to remove the water as it forms. This can be achieved by using a Dean - Stark apparatus, which allows the continuous separation of water from the reaction mixture.The Dean-Stark apparatus can be used to separate water continuously from the reaction mixture. Another way is to use an excess of one of the reactants, usually 2 - octanol.A second way is to use a surplus of one of the reaction agents, usually 2 octanol. By Le Chatelier's principle, adding an excess of a reactant will shift the equilibrium towards the product side.According to Le Chatelier, adding excesses of a reaction will shift the balance towards the product.

3. Purification
After the esterification reaction, the reaction mixture contains the desired Bio - 2 - Octyl methacrylate, unreacted starting materials, catalyst, and by - products such as water.After the esterification, the reaction mixture contains Bio - 2 Octyl Methacrylate as well as unreacted materials, catalyst and by-products such water. Purification is necessary to obtain a high - purity product.Purification is required to achieve a high-purity product. First, the catalyst can be removed by neutralization.The catalyst can first be removed through neutralization. For example, if sulfuric acid was used as the catalyst, it can be neutralized with a base like sodium carbonate.If sulfuric acid is used as a catalyst, it can neutralized by a base such as sodium carbonate. Then, the mixture can be subjected to distillation.The mixture can then be subjected distillation. Bio - 2 - Octyl methacrylate has a specific boiling point, and by carefully controlling the distillation conditions, it can be separated from other components in the mixture.Bio - 2 Octyl Methacrylate is a substance with a specific boiling temperature. By carefully controlling the conditions of distillation, it can be separated. Vacuum distillation may be used to lower the boiling point and prevent thermal decomposition of the product.Vacuum distillation can be used to lower boiling point and prevent thermal degradation of the product. Additionally, other purification techniques such as extraction with appropriate solvents can also be used to further remove impurities and obtain a highly pure Bio - 2 - Octyl methacrylate product.Other purification techniques, such as extraction using appropriate solvents, can be used to remove impurities further and obtain a highly-pure Bio - 2 Octyl methacrylate.

What are the safety precautions when handling Bio-2-Octyl methacrylate?

Bio - 2 - Octyl methacrylate is a chemical compound, and when handling it, several safety precautions should be observed.Bio - 2 Octyl Methacrylate is an organic compound. When handling it, you should take several safety precautions.
Firstly, personal protective equipment (PPE) is crucial.Personal protective equipment is essential. Wear appropriate chemical - resistant gloves.Wear chemical-resistant gloves. Nitrile gloves are often a good choice as they can provide a barrier against the potential skin contact with Bio - 2 - Octyl methacrylate.Nitrile gloves can be a good option as they provide a barrier to Bio - 2 Octyl methacrylate. Skin exposure can lead to irritation, so it's important to prevent direct contact.It is important to avoid direct skin contact as it can cause irritation. Also, use safety goggles or a face shield to protect the eyes.Use safety goggles, or a face shield, to protect your eyes. In case of any splashes, these will prevent the chemical from getting into the eyes, which could cause serious damage, including corneal abrasions or chemical burns.These will protect your eyes from any chemical splashes that could cause serious injury, such as corneal abrasions and chemical burns.

Secondly, ensure proper ventilation. Work in a well - ventilated area, preferably under a fume hood if available.If possible, work in an area that is well-ventilated. Bio - 2 - Octyl methacrylate may release vapors, and inhaling these vapors can irritate the respiratory tract.Inhaling vapors from Bio - 2 Octyl Methacrylate can cause irritation of the respiratory tract. Prolonged or high - concentration inhalation might cause more serious effects such as coughing, shortness of breath, and in severe cases, damage to the lungs.Inhalation of high concentrations or prolonged inhalation can cause more serious effects, such as coughing and shortness in breath. In severe cases, lung damage may occur. A fume hood effectively removes the vapors from the breathing zone, reducing the risk of inhalation exposure.A fume hood removes vapors from your breathing zone, reducing inhalation risk.

Thirdly, be cautious during storage.Thirdly, take care when storing. Store Bio - 2 - Octyl methacrylate in a cool, dry place away from heat sources and open flames.Store Bio -2 - Octyl Methacrylate in an area that is cool and dry, away from heat sources or open flames. It is flammable, and heat or an ignition source could lead to a fire hazard.It is flammable and heat or an ignition could cause a fire. Keep it in a container that is tightly sealed to prevent evaporation and leakage.Store it in a tightly sealed container to prevent evaporation or leakage. Also, store it separately from incompatible substances.Store it away from other substances that are incompatible. For example, it should not be stored near strong oxidizers as they can react violently with the methacrylate compound.It should not be kept near strong oxidizers, as they can cause a violent reaction with the methacrylate.

Fourthly, in case of spills, take immediate action.In the event of a spill, you should take immediate action. If a spill occurs, first, evacuate the area if the vapors are concentrated enough to pose a risk.If there is a spill, you should first evacuate the area, if the vapors present a danger. Then, wear appropriate PPE and use absorbent materials like vermiculite or sand to contain the spill.Wear appropriate PPE, and use absorbent materials such as vermiculite or Sand to contain the spill. Avoid using water to clean it up directly as it may spread the chemical.You should not use water to clean up the spill directly, as this could spread the chemical. After containing the spill, carefully transfer the absorbed chemical to a proper waste container for disposal according to local regulations.After the spill has been contained, transfer the chemical into a suitable waste container and dispose of it according to local regulations.

Finally, be familiar with first - aid procedures.Be familiar with the first-aid procedures. In case of skin contact, immediately remove contaminated clothing and wash the affected area with plenty of soap and water for at least 15 minutes.If skin contact occurs, remove all contaminated clothing immediately and wash the affected area thoroughly with soap and water. If the chemical gets into the eyes, flush the eyes with copious amounts of water for at least 15 minutes and seek immediate medical attention.If the chemical gets in the eyes, flush them with plenty of water for 15 minutes at least and seek immediate medical care. In case of inhalation, move the affected person to fresh air and, if necessary, perform artificial respiration and call for medical help.In the case of inhalation move the person to fresh air, and if necessary, use artificial respiration. Call for medical assistance.