Dimethyl Malonate

Huihuang Chemical

Specifications

HS Code	213626
Chemical Formula	C5H8O4
Molar Mass	132.11 g/mol
Appearance	Colorless liquid
Odor	Faintly sweet odor
Density	1.156 g/cm³
Boiling Point	181 - 185 °C
Melting Point	-62.5 °C
Solubility In Water	Slightly soluble
Solubility In Organic Solvents	Soluble in many organic solvents like ethanol, ether
Flash Point	84 °C
Refractive Index	1.414 - 1.416

Packing & Storage

Packing	Dimethyl Malonate in 5 - liter drum packaging for secure storage and transport.
Storage	Dimethyl malonate should be stored in a cool, dry, well - ventilated area away from heat sources and open flames. Keep it in a tightly - sealed container to prevent vapor leakage. Store it separately from oxidizing agents, acids, and bases as it can react with them. This ensures its stability and minimizes potential safety risks.
Shipping	Dimethyl malonate is shipped in tightly - sealed, corrosion - resistant containers. It follows strict chemical transportation regulations to prevent spills. Shipment often requires proper labeling and handling by trained personnel due to its chemical nature.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

General Information

Historical Development

"On the Historical Development of Dimethyl Malonate"
Dimethyl malonate is also a chemical substance. Its origin can be traced back to the process of scientific research in the past. At the beginning, scholars gradually paid attention to this object in the process of chemical exploration. At that time, its understanding was still shallow, and only a little glimpse was given.
With the passage of time, the changes of time, and the development of scientific research. All the sages have devoted themselves to the field of chemistry, and the research on dimethyl malonate has become more and more in-depth. From the exploration of its properties to the improvement of preparation methods, there have been many breakthroughs. In the past, the preparation method was either cumbersome or inefficient, but after unremitting research, new techniques gradually emerged, which improved its yield and widened its application. From this point of view, dimethyl malonate has been in the long river of chemical history development, from the beginning of its embryonic stage to its gradual maturity, thanks to the hard work of scholars of all dynasties.

Product Overview

Product Overview of Dimethyl Malonate
Dimethyl Malonate is an important agent in organic synthesis. Its color is clear, taste is slightly fragrant, and it is liquid. The boiling point is about ninety and eight degrees Celsius, and the melting point is nearly minus fifty degrees Celsius.
The production method of this product is often obtained by esterification, rehydrolysis and re-esterification of cyanoacetic acid and methanol. In the field of organic synthesis, it has a wide range of uses. It can be used as a raw material for the synthesis of medicines, fragrances and pesticides. In the production of barbiturates, dimethyl malonate is indispensable and is a key material for cyclization reactions. In the synthesis of fragrances, it can add its unique flavor. As a pesticide intermediate, it can help form high-efficiency insecticides and fungicides.
Its storage and transportation needs to be careful. It should be placed in a cool, dry and ventilated place to avoid fire and heat. Because of its flammability, it is easy to be dangerous when mixed with oxidants. When handling, light loading and light unloading, loss-proof packaging. In this way, the quality and safety of dimethyl malonate can be guaranteed, and it can be used in the chemical industry to make the best use of it and promote the progress of the industry.

Physical & Chemical Properties

"On the Physical and Chemical Properties of Dimethyl Malonate"
Dimethyl malonate is also an organic compound. Its shape is a colorless and transparent liquid with a weak ester aroma. Looking at its physical properties, the melting point is about -50 ° C, the boiling point is 180.5 ° C, and the density is 1.156 g/cm ³. It is insoluble in water, but it can be miscible in organic solvents such as alcohols and ethers.
In terms of its chemical properties, the ester group activity is quite high. It can be substituted with alcohols, amines, etc. In the case of alkali, it is easy to hydrolyze to form malonic acid and its salts. In the field of organic synthesis, it is often used as a carbon source to participate in many reactions, such as reaction with halogenated hydrocarbons, which can extend carbon chains and build complex organic structures. Its physical and chemical properties make it an important application in the pharmaceutical, pesticide, fragrance synthesis and other industries, and it is also a cornerstone material for chemical synthesis.

Technical Specifications & Labeling

Dimethyl Malonate is also a chemical product. Its technical specifications and identification (product parameters) are the key.
Looking at its technical specifications, it is necessary to strictly abide by the standards of the process. The raw materials must be carefully selected to achieve the best purity. The reaction conditions, such as temperature, pressure, time, etc., should be precisely controlled. If the temperature is slightly different, the product may be impure; if the pressure is not correct, the reaction will be difficult.
As for the identification (product parameters), it should not be underestimated. On the packaging, its composition, content, characteristics, etc. must be stated. The ingredients are accurately marked so that the user can understand their quality; the content is clearly presented, and the dosage can be confirmed; if the characteristics are explained in detail, the applicable domain will be known. Only in this way can we ensure the quality and safety of Dimethyl Malonate to meet the needs of all parties.

Preparation Method

The method of making Dimethyl Malonate is related to the raw materials and production process, reaction steps and catalytic mechanism, which is quite crucial. The raw materials are often malonic acid and methanol. In the production process, the esterification reaction is the main one. First, malonic acid and methanol are placed in a reactor in an appropriate proportion, and a catalyst such as sulfuric acid is added, and heating is used to promote the reaction. The reaction steps are as follows: Malonic acid and methanol are heated, and under the action of the catalyst, esterification gradually occurs to produce Dimethyl Malonate and water. The catalytic mechanism is that the catalyst reduces the activation energy of the reaction, making the reaction easier to proceed. In this way, according to this standard operation, Dimethyl Malonate can be obtained.

Chemical Reactions & Modifications

Dimethyl Malonate is also a chemical substance. Its transformation and reversal properties are the requirements of our research.
Its reaction is also often involved in the chemical process. Or the combination of other substances, or self-decomposition, are all based on the law of chemistry. In case of corrosion, it will cause hydrolysis, and the ester group will crack, and the acid and alcohol of the phase will be produced.
As for its resistance, it can be improved by changing the reaction. Increase the degree of resistance, the reaction rate may increase; The overall dissolution can also reduce the reaction rate. Catalytic substances can also be introduced to promote the reaction rate, so that the reaction rate can be improved and the resistance can be increased.
I study it, and strive to understand its antithetical nature in depth, hoping to make good use of the research in work and management, so as to promote the development of the technology and benefit the world.

Synonyms & Product Names

Dimethyl malonate of dimethyl ester, which is used in the field of chemical industry, has a wide range of uses. Its aliases are also numerous, such as dimethyl malonate, etc., all of which are the same name.
Looking at the past, many experts in the chemical industry have studied this product, and after years of study, they have obtained the method of preparation. Its pure quality is clear and transparent, with specific odor and properties.
In the industry, its uses are diverse. It can be an essential material for organic synthesis, and many fine chemical products are made based on it. And because of its unique characteristics, it is also indispensable in the pharmaceutical, fragrance and other industries. Or help the creation of new pharmaceutical products, or add its unique charm to fragrances.
Therefore, the malonic acid of dimethyl ester is known as malonic acid in the chemical industry, and it is also known for its various uses. It is also a contributor to the prosperity of the industry.

Safety & Operational Standards

On the Safety and Operation Specifications of Dimethyl Malonate Products
Dimethyl Fuproate is also an essential agent for organic synthesis. Its nature is related to the safety of operation, and the regulations must not be ignored.
Dimethyl Malonate, a colorless and transparent liquid, has a weak aroma. However, it is also dangerous, flammable and irritating the human body. Touch the skin, or cause discomfort; enter the eyes, it will cause pain. If inhaled inadvertently, it will also damage the system of breathing. Therefore, when using, security measures are indispensable.
As far as operating specifications are concerned, the first priority is ventilation of the environment. Make sure that the air flows smoothly in the place of work to avoid the accumulation of steam. The operator must wear protective gear, anti-chemical gloves, eye protection glasses, and a gas mask to prevent contact and inhalation.
When taking it, handle it with care to avoid dumping and spillage. When using the finished utensils, it must be cleaned to prevent residue. If there is a risk of leakage, start an emergency case immediately. Cut off the fire source first, and prohibit people from approaching. When a small leak occurs, it can be adsorbed and contained by sand and other objects; if a large leak occurs, it can be blocked by an embankment, and then disposed of in a proper way.
The storage place should be cool and dry, away from the source of fire heat. It should not be mixed with oxidants, acids, etc. The storage area should be equipped with equipment for emergency treatment of leaks and suitable containment materials.
In addition, operators must undergo professional training to be familiar with its nature and operation rules. Emergency methods should also be practiced on a daily basis to deal with emergencies.
The safety and operation specifications of dimethyl malonate are related to the safety of the person and the environment. Practitioners should observe it carefully and not slack off, so as to ensure that everything goes smoothly and is safe.

Application Area

Dimethyl Malonate is also a treasure of chemistry. Its application field is very important.
In the field of synthesis, it is often an important raw material. It can be used for many subtle reactions, so as to create a variety of different frameworks. When they meet in different generations, they can follow specific principles to generate general carboxylic acid ester derivatives. This is an extraordinary way for the synthesis of compounds. The company can use its characteristics to create products with specific effects, so as to solve the world's diseases.
And in the field of materials, it can also develop its capabilities. Or it can be modified to improve the properties of materials, such as qualitative and performance. Make materials more suitable for different environments, to meet various needs.
In addition, Dimethyl Malonate plays an important role in many domains. The wonders of its function need to be explored and expanded step by step.

Research & Development

There is a chemical substance today, called Dimethyl Malonate, which our generation studied. It is unique in nature and has a wide range of uses, and can be used in various fields.
We have been studying this substance for a long time, examining its quality, properties and changing principles in detail. After years of investigation, we have a deep understanding of its synthesis techniques, which is of great help. It can make all kinds of fine things, adding bricks to the chemical and pharmaceutical industries.
Looking at the past, we have explored step by step and overcome countless problems. Optimize the production method, improve its purity, and increase its output. Looking forward to the future, we should strive forward, expand its uses, and tap its potential. Hope that its contribution to the advancement of science and technology and the well-being of people's livelihood will become even greater. With perseverance and unremitting research, this material will surely be able to shine brightly and move towards a new realm in the path of research and development.

Toxicity Research

The toxicity of taste and smell is related to the safety of life and people, and cannot be ignored. Today's study of the toxicity of Dimethyl Malonate is a very serious matter.
Dimethyl Malonate is also a chemical thing. Examine its properties in detail, in the experiment, observe its effect on various things. Or touch the skin, or enter the body, observe its changes. When the skin touches it, there is a burning sensation, and the color becomes red and swollen, which shows that it has irritation to the body surface. If it enters the body, the viscera is invaded by it, and the function is gradually disrupted, even endangering life.
However, the test of toxicity is not only one end. It is related to the dose, and the amount is small or light, and the amount is huge. And different things should also be different. Therefore, when studying its toxicity, we must comprehensively examine it and cannot neglect it. Examine its situation carefully and clarify its toxicity, so as to prevent problems before they occur and ensure that everyone is born healthy.

Future Prospects

In the field of chemical industry, Dimethyl Malonate has deep potential, and the future development can be looked forward to sincerely. Its nature is pure and widely used, and it is an important material in the way of organic synthesis. It can make all kinds of wonderful products. It belongs to medicine and can help the world with good prescriptions; spices and the like can give people a pleasant fragrance.
Nowadays, science and technology are new, and researchers are striving for progress. Looking forward to the goodness of the craftsmanship, it can make the output rich and the quality is excellent. And hope that the road of environmental protection will reduce consumption and reduce emissions, and be in harmony with nature. With time, we will be able to emerge in the forest of chemical industry, create profits for the industry, and seek well-being for the world. The grand future will be like the rise of the morning glow, shining brightly, and we can wait for it.

Frequently Asked Questions

What is the main use of dimethyl dimethylmalonate?

Diethyl diaminobutyrate diacetate has many main uses. In the field of medicine, it is often used as an important synthetic raw material. It has a specific chemical structure and can be used to prepare a variety of drugs with therapeutic effects through ingenious chemical reactions.
From the perspective of biochemical research, this substance is also indispensable. Because it can simulate specific biochemical processes in the body, it can help researchers gain insight into the mysteries of life activities. For example, in neurotransmitter-related research, diethyl diaminobutyrate diacetate may affect the signaling between nerve cells. By exploring it in depth, the mechanism of the nervous system can be clearer.
It also has unique uses in the field of materials science. Or can participate in the synthesis of some special materials, giving the material different properties. For example, when preparing a specific polymer material, adding this substance may improve the flexibility, stability and other characteristics of the material, so that the material has better performance in a specific environment.
And in the field of organic synthesis, it is often a key intermediate. With its own functional groups, it can combine with many other compounds through a series of organic reactions to construct organic molecules with more complex structures and more diverse functions, thereby expanding the boundaries of organic synthesis and providing the possibility to create novel organic compounds. From this perspective, diethyl diaminobutyrate diacetate plays a pivotal role in a variety of disciplines and plays an irreplaceable role.

What are the physical properties of dimethyl dimethylmalonate?

Diethylene glycol dibenzoate is an organic compound. Its physical properties are quite unique.
Looking at its properties, it is in the state of a colorless transparent oily liquid at room temperature, which makes it easy to flow and operate on many occasions. Smell it, the breath is slight, and there is no strong pungent odor. In terms of the use environment, it can reduce the adverse effect on the surrounding air.
When it comes to the melting point, its value is relatively low, which means that under normal temperature conditions, it can maintain a liquid state, has good fluidity, and is easy to mix with other substances in production applications. The higher boiling point indicates that its thermal stability is quite good, and it is not easy to volatilize at higher temperatures. It can maintain a stable physical state in a relatively wide temperature range, which is conducive to use in heating or high temperature processes.
Solubility is also a key property. It is soluble in many organic solvents, such as aromatics, halogenated hydrocarbons, etc. This solubility makes it a solvent or plasticizer in coatings, inks and other industries, effectively improving the performance of products. The solubility with different organic solvents provides a variety of options for formulation design, and products that meet specific requirements can be prepared according to actual needs.
In addition, its density is similar to that of common organic liquids. This moderate density helps maintain the stability of the system when mixed with other materials and avoids problems such as delamination due to excessive density differences.
Diethylene glycol dibenzoate has a wide range of applications in the chemical industry due to these physical properties, and plays an important role in material processing, product manufacturing and other aspects.

What are the chemical properties of dimethyl dimethylmalonate?

Diethyl diaminobutyric acid has special physical properties. It is an organic compound. At room temperature, it is a colorless to light yellow transparent liquid with a special smell.
When it comes to solubility, it can be soluble in common organic solvents, such as ethanol and ether, but its solubility in water is quite limited. This is because its molecular structure contains a long ester-based carbon chain, which has certain hydrophobicity.
In terms of thermal stability, its properties are stable at moderate temperatures. If the temperature is too high, the ester group may undergo hydrolysis reaction, causing the structure to break down and forming diaminobutyric acid and ethanol.
Its chemical activity is also important. Ester groups can react with a variety of nucleophiles, such as alcohols and amines. Taking alcohol as an example, under specific conditions, ester exchange reactions can occur to produce new ester compounds. The presence of amino groups makes it alkaline and can neutralize and react with acids to form corresponding salts.
In the field of organic synthesis, diethyl diaminobutyrate has a wide range of uses. It is often used as an intermediate and participates in the construction of many complex organic molecules. Its unique structure and chemical properties facilitate the synthesis of compounds with specific structures and functions. If you want to make special polymers containing amino and carboxyl groups, this compound may be used as a starting material to achieve the desired synthesis goal through ingenious reaction design.

What are the synthesis methods of dimethyl dimethylmalonate?

The synthesis methods of diethyl diaminobutyrate are roughly as follows:
First, halogenated acid esters and amines are used as raw materials. Take an appropriate amount of halogenated acid esters, place them in a clean reactor, slowly add amine reagents, and at the same time add a suitable catalyst to fully react under a specific temperature and pressure environment. In this process, the halogen atom of the halogenated acid ester reacts with the amino group of the amine to gradually generate diethyl diaminobutyrate. The raw materials for this method are relatively easy to obtain, and the reaction conditions are relatively easy to control. However, it is necessary to pay attention to the selectivity of the reaction to prevent side reactions.
Second, synthesize through esterification reaction. First prepare diaminobutyric acid, mix it with ethanol in a certain proportion, put it into a reaction vessel, and add an appropriate amount of concentrated sulfuric acid as a catalyst. Under heating conditions, the carboxyl group of diaminobutyric acid and the hydroxyl group of ethanol undergo esterification reaction, and after a certain period of time, diethyl diaminobutyric acid can be formed. The key to this approach is to control the reaction temperature and the amount of concentrated sulfuric acid to avoid over-reaction or carbonation, and the sulfuric acid needs to be properly handled after the reaction to achieve environmental protection and product purity.
Third, the method of condensation reaction is adopted. Select a suitable compound containing carboxyl and amino groups to carry out condensation reaction under the action of a condensing agent. The condensation agent can promote the dehydration and condensation of carboxyl groups and amino groups, and build the basic structure of diethyl diaminobutyrate. This method requires high requirements for condensation agents, and precise control of reaction conditions is required to improve the yield and purity of the reaction. At the same time, the separation and purification of the product after the reaction also requires fine operation to obtain pure diethyl diaminobutyrate.
The above methods have advantages and disadvantages. In practical application, the most suitable synthesis method should be carefully selected according to specific needs and conditions.

What are the precautions for dimethyl dimethylmalonate during storage and transportation?

Diethyl diaminobutyrate diacetate has many things to pay attention to during storage and transportation.
Its delicate nature, in case of hot topics, open flames or strong oxidants, such as fire touching dry wood, it is very easy to cause the risk of combustion and explosion. Therefore, the storage place must be kept away from the kindling and heat source, and should be stored separately from the oxidant. It must not be mixed with the storage to prevent the disaster from suddenly arising. In the warehouse, it should be well ventilated, and the temperature and humidity should be strictly controlled. This is the basis for safeguarding its safety.
When transporting, it should not be slack. The packaging must be tight to ensure that there are no gaps or leaks. It is like wearing strong armor to prevent the slightest loss or leakage on the way. The transportation vehicle needs to be equipped with the corresponding variety and quantity of fire equipment, just in case. During driving, drivers must be cautious, stay away from densely populated areas, and do not stay in busy neighborhoods or residential areas.
When loading and unloading, the operator should handle it with care, just like a rare treasure, and must not be brutally loaded and unloaded, causing damage to it. And fireworks should be strictly prohibited at the loading and unloading site to prevent all hidden dangers of fire sources.
In addition, whether it is storage or transportation, relevant personnel must be familiar with the characteristics of diethyl diaminobutyric acid diacetate and emergency treatment methods. In the event of an emergency, it can respond quickly and appropriately to minimize the harm. Only by paying high attention to the above during storage and transportation can it be kept safe, avoid accidents, and ensure the safety of all parties.