Shanxian Chemical
PRODUCTS
Monoisopropylamine
Shanxian Chemical
|
HS Code |
907712 |
| Chemical Formula | C3H9N |
| Molar Mass | 59.11 g/mol |
| Appearance | Colorless liquid |
| Odor | Ammonia - like odor |
| Density | 0.717 g/cm³ |
| Boiling Point | 31 - 32 °C |
| Melting Point | -95 °C |
| Solubility In Water | Miscible |
| Flash Point | -17 °C |
| Auto Ignition Temperature | 318 °C |
| Vapor Pressure | 30.4 kPa (20 °C) |
As an accredited Monoisopropylamine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Monoisopropylamine in 25 - kg drums for safe and convenient storage and transport. |
| Storage | Monoisopropylamine should be stored in a cool, well - ventilated area, away from heat, sparks, and open flames. It should be kept in tightly - sealed containers made of compatible materials like steel or polyethylene. Avoid storing it near oxidizing agents. Store in a dedicated chemical storage facility, following all safety regulations to prevent leaks and potential hazards. |
| Shipping | Monoisopropylamine is shipped in accordance with strict chemical transport regulations. It's typically in sealed, corrosion - resistant containers, safeguarded from heat and incompatible substances during transit to ensure safety. |
Competitive Monoisopropylamine prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365186327 or mail to info@liwei-chem.com.
We will respond to you as soon as possible.
Tel: +8615365186327
Email: info@liwei-chem.com
Historical Development
Monoisopropylamine is also an organic compound. It originated from the progress of chemical research in the past. At the beginning, the chemical sages dedicated themselves to the decomposition and creation of substances, and constantly explored the field of organic synthesis. At that time, the conditions were simple, but the sages worked hard.
After a long time, the skills of organic chemistry have improved day by day. Many reaction mechanisms are gradually becoming clearer, and the synthesis methods are also becoming more subtle. In the study of amine compounds, scientists have carefully investigated, and after countless attempts and improvements, they have finally obtained the method of synthesizing Monoisopropylamine.
The birth of this compound was not achieved overnight, but through the unremitting efforts of generations of chemists, from the deep excavation of the basic principles to the optimization of the synthesis process, step by step accumulation, to today's results, which is an important mark in the development of chemistry.
After a long time, the skills of organic chemistry have improved day by day. Many reaction mechanisms are gradually becoming clearer, and the synthesis methods are also becoming more subtle. In the study of amine compounds, scientists have carefully investigated, and after countless attempts and improvements, they have finally obtained the method of synthesizing Monoisopropylamine.
The birth of this compound was not achieved overnight, but through the unremitting efforts of generations of chemists, from the deep excavation of the basic principles to the optimization of the synthesis process, step by step accumulation, to today's results, which is an important mark in the development of chemistry.
Product Overview
Monoisopropylamine is a chemical substance. Its characteristics are unique, and its uses are not good. In addition, it is a liquid of color, with a strong ammonia taste. In its boiling, it can dissolve in multiple solutions.
This compound is very important in the field of work. It is often used as a raw material for the synthesis of chemical materials, to help the diversification of chemical products. In the manufacturing process, it can improve the efficiency of manufacturing, weeding, etc. It also plays an important role in the synthesis of chemical products, helping to promote new research.
And in some specialized reactions, it can be used as a catalyst to accelerate the reaction rate and increase the amount of chemical products. In short, the status of Monoisopropylamine in the chemical industry cannot be ignored, and it is an indispensable thing for chemical research and industrial and biological products.
This compound is very important in the field of work. It is often used as a raw material for the synthesis of chemical materials, to help the diversification of chemical products. In the manufacturing process, it can improve the efficiency of manufacturing, weeding, etc. It also plays an important role in the synthesis of chemical products, helping to promote new research.
And in some specialized reactions, it can be used as a catalyst to accelerate the reaction rate and increase the amount of chemical products. In short, the status of Monoisopropylamine in the chemical industry cannot be ignored, and it is an indispensable thing for chemical research and industrial and biological products.
Physical & Chemical Properties
Monoisopropylamine, also an organic compound. Its shape is a colorless liquid with the smell of ammonia. Boiling point is about 33 ° C, melting point is -95 ° C, density is 0.694g/cm ³. Can be miscible with water, alcohol and ether.
In terms of its chemical properties, it is alkaline and can form salts with acids. In case of open flame and hot topic flammable, it can react strongly with oxidants. It has a wide range of uses in organic synthesis and is often used as an intermediate to make drugs, pesticides, etc.
Because of its volatility and irritation, it should be paid attention to safety when using, and it should be well ventilated to operate, and should avoid contact with skin and eyes to prevent damage.
In terms of its chemical properties, it is alkaline and can form salts with acids. In case of open flame and hot topic flammable, it can react strongly with oxidants. It has a wide range of uses in organic synthesis and is often used as an intermediate to make drugs, pesticides, etc.
Because of its volatility and irritation, it should be paid attention to safety when using, and it should be well ventilated to operate, and should avoid contact with skin and eyes to prevent damage.
Technical Specifications & Labeling
The technical specifications and labeling (product parameters) of Monoisopropylamine are described here. Its color is pure and transparent, if it is clear water, there is no variegated dye. Smell it, the taste is special, but there is no rancid and pungent evil.
In terms of its technical specifications, purity is the key, and it must reach a very high standard. Impurities must be minimal to meet the quality of high-quality products. Its boiling point and melting point are fixed, which are important for physical properties and indispensable for production and application.
In terms of labeling, on the packaging, the name is clear, and there is no information on the origin and batch. There are also warnings to indicate the characteristics and hazards of this thing, so that the user can handle it with caution. In this way, the detailed technical specifications and logos of Monoisopropylamine can be used by the industry without any worries.
In terms of its technical specifications, purity is the key, and it must reach a very high standard. Impurities must be minimal to meet the quality of high-quality products. Its boiling point and melting point are fixed, which are important for physical properties and indispensable for production and application.
In terms of labeling, on the packaging, the name is clear, and there is no information on the origin and batch. There are also warnings to indicate the characteristics and hazards of this thing, so that the user can handle it with caution. In this way, the detailed technical specifications and logos of Monoisopropylamine can be used by the industry without any worries.
Preparation Method
Now there is a method for making Monoisopropylamine. The raw materials are mainly isopropanol and ammonia. The preparation method is as follows: Take an appropriate amount of isopropanol, mix it with ammonia in a certain proportion, and introduce it into the reactor. During the reaction, the temperature needs to be controlled in a suitable environment, about [X] ° C, and the catalyst is added to help. This reaction goes through multiple steps. At first, isopropanol and ammonia come into contact, and work on the surface of the catalyst. The nitrogen atom in ammonia interacts with the hydroxyl group of isopropanol, and the hydroxyl group is separated, and Monoisopropylamine is gradually formed. After the reaction, the product is separated and purified. First, by distillation, the unreacted raw material is separated from the product according to the difference in boiling point. Then by distillation, high-purity Monoisopropylamine is In this way, this product can be obtained, and the manufacturing process needs to be carefully controlled in each step to ensure yield and purity.
Chemical Reactions & Modifications
Monoisopropylamine, that is, isopropylamine, is used in various chemical reactions, and its characteristics are related to the effect and change of the reaction.
In past experiments, isopropylamine participated in the amination reaction. Its activity can be quickly replaced with many halogenated hydrocarbons, but there are also many side reactions, resulting in impure products. The reason is that the spatial resistance and electronic effects of isopropylamine are entangled.
After the change, the temperature, pressure and catalyst of the reaction are adjusted. Introducing a special acid-base catalyst to control the process of the reaction can actually reduce the side reaction and increase the purity of the product. This change depends on the in-depth investigation of the chemical nature of isopropylamine. The distribution of its electron cloud and the activity of its functional groups are the basis for change. The current achievement is the result of the delicate management of reaction conditions based on chemical laws, which makes isopropylamine be used in chemical production to the best of its ability, resulting in high quality and efficiency.
In past experiments, isopropylamine participated in the amination reaction. Its activity can be quickly replaced with many halogenated hydrocarbons, but there are also many side reactions, resulting in impure products. The reason is that the spatial resistance and electronic effects of isopropylamine are entangled.
After the change, the temperature, pressure and catalyst of the reaction are adjusted. Introducing a special acid-base catalyst to control the process of the reaction can actually reduce the side reaction and increase the purity of the product. This change depends on the in-depth investigation of the chemical nature of isopropylamine. The distribution of its electron cloud and the activity of its functional groups are the basis for change. The current achievement is the result of the delicate management of reaction conditions based on chemical laws, which makes isopropylamine be used in chemical production to the best of its ability, resulting in high quality and efficiency.
Synonyms & Product Names
Monoisopropylamine is also a chemical substance. Its synonymous name, or isopropylamine. This substance has a wide range of industrial uses and is often used as a raw material for organic synthesis.
It is sold in the market under the trade name of isopropylamine. Due to its active chemical properties, it can participate in a variety of reactions, so it is an important ingredient in the pharmaceutical, pesticide and other industries.
The concept of its synonymous name and trade name, although there are different expressions, it actually refers to the same thing. Like ancient books, there are more than one thing, but its essence has not changed. In today's chemical research and industrial production, it is crucial to clarify the relationship between this synonymous name and the trade name in order to use it accurately and promote the development of the industry.
It is sold in the market under the trade name of isopropylamine. Due to its active chemical properties, it can participate in a variety of reactions, so it is an important ingredient in the pharmaceutical, pesticide and other industries.
The concept of its synonymous name and trade name, although there are different expressions, it actually refers to the same thing. Like ancient books, there are more than one thing, but its essence has not changed. In today's chemical research and industrial production, it is crucial to clarify the relationship between this synonymous name and the trade name in order to use it accurately and promote the development of the industry.
Safety & Operational Standards
Monoisopropylamine is also a chemical substance. Its safety and operating standards are related to the safety of workers and endanger the smooth production.
This material is dangerous to some extent. It is flammable by nature, and it is easy to ignite and explode when exposed to open flames and hot topics. Its vapor and air can form an explosive mixture, so it must be strictly prevented from ignition in production and storage places. And it is corrosive and can cause burns when it touches the skin and eyes.
When operating, workers should follow strict regulations. Appropriate protective equipment must be worn first, such as chemical protective clothing, protective gloves, goggles, etc., to avoid contact with the body. Operate in a well-ventilated place to prevent vapor accumulation. If you accidentally touch the skin, you should quickly rinse with a large amount of water and seek medical treatment; if it gets into the eyes, you should also rinse with water quickly and seek medical assistance.
Storage also needs to be cautious. It should be placed in a cool and ventilated place, away from fire and heat sources. It should be stored separately from oxidants and acids, and should not be mixed. When handling, pack and unload lightly to prevent package damage.
Emergency response is also key. In the event of a leak, quickly evacuate unrelated personnel to a safe area and prohibit fire sources. Emergency responders wear protective clothing, absorb it with inert materials such as sand and vermiculite, and do not let it flow into sewers.
In conclusion, the safety and operation standards of Monoisopropylamine are essential to ensure personnel safety and orderly production, and must not be ignored.
This material is dangerous to some extent. It is flammable by nature, and it is easy to ignite and explode when exposed to open flames and hot topics. Its vapor and air can form an explosive mixture, so it must be strictly prevented from ignition in production and storage places. And it is corrosive and can cause burns when it touches the skin and eyes.
When operating, workers should follow strict regulations. Appropriate protective equipment must be worn first, such as chemical protective clothing, protective gloves, goggles, etc., to avoid contact with the body. Operate in a well-ventilated place to prevent vapor accumulation. If you accidentally touch the skin, you should quickly rinse with a large amount of water and seek medical treatment; if it gets into the eyes, you should also rinse with water quickly and seek medical assistance.
Storage also needs to be cautious. It should be placed in a cool and ventilated place, away from fire and heat sources. It should be stored separately from oxidants and acids, and should not be mixed. When handling, pack and unload lightly to prevent package damage.
Emergency response is also key. In the event of a leak, quickly evacuate unrelated personnel to a safe area and prohibit fire sources. Emergency responders wear protective clothing, absorb it with inert materials such as sand and vermiculite, and do not let it flow into sewers.
In conclusion, the safety and operation standards of Monoisopropylamine are essential to ensure personnel safety and orderly production, and must not be ignored.
Application Area
Monoisopropylamine can be used as a raw material for synthetic materials in the field of engineering. With its unique characteristics, it can be used to multiply and reverse, and obtain important products.
In the field of engineering, it also has its uses. It can help the synthesis of materials, or provide the necessary foundation for the production of molecules to increase the efficiency of materials.
In the field of engineering, it can be used for research. It can improve the characteristics of the product, making it more effective in the prevention and treatment of diseases, and the impact of the environment is small.
As a result, Monoisopropylamine has shown important value in many fields, and its application prospects are not yet available in more fields.
In the field of engineering, it also has its uses. It can help the synthesis of materials, or provide the necessary foundation for the production of molecules to increase the efficiency of materials.
In the field of engineering, it can be used for research. It can improve the characteristics of the product, making it more effective in the prevention and treatment of diseases, and the impact of the environment is small.
As a result, Monoisopropylamine has shown important value in many fields, and its application prospects are not yet available in more fields.
Research & Development
In recent times, chemistry has flourished, and all kinds of products are changing with each passing day. Monoisopropylamine is an important product of chemistry. We have dedicated ourselves to studying its preparation method in detail. At the beginning, we tried all kinds of paths, which were either ineffective or expensive. However, we are determined and tried repeatedly.
After months of hard work, we finally get results. Optimize the process, select raw materials, so that the yield gradually increases and the quality is better. And consider its application in different fields to expand its path. On top of industry, its effectiveness is significant and indispensable for many production links.
Looking to the future, we should continue to improve. Deepen research, hoping to improve its performance and wide application. In the process of scientific research, we are moving forward steadily, hoping that this product can bring more benefits to the industry, promote the development of the industry, and lead the new frontier of chemical product research.
After months of hard work, we finally get results. Optimize the process, select raw materials, so that the yield gradually increases and the quality is better. And consider its application in different fields to expand its path. On top of industry, its effectiveness is significant and indispensable for many production links.
Looking to the future, we should continue to improve. Deepen research, hoping to improve its performance and wide application. In the process of scientific research, we are moving forward steadily, hoping that this product can bring more benefits to the industry, promote the development of the industry, and lead the new frontier of chemical product research.
Toxicity Research
Tasting and smelling chemical substances is related to people's livelihood, but the study of its toxicity cannot be ignored. Today's research on the product of Monoisopropylamine requires the study of toxicity. This product may be irritating, touching it, the skin may feel uncomfortable, if it enters the eyes, it may hurt the bright light. Smell it, its qi is pungent, damaging the respiratory system. If you take it internally, your viscera will be damaged, which will cause great harm.
In fact, we should use scientific methods to observe its response to living things. Take white mice as an experiment, feed a small amount, observe the changes in their behavior, diet, work and rest; and use cells as an observation to explore their impact on the foundation of life. After months of research, it is clear that the signs of toxicity can be used as evidence for protection and disposal, so that workers can be safe and the environment is peaceful. Do not let the poison of this product harm all living beings.
In fact, we should use scientific methods to observe its response to living things. Take white mice as an experiment, feed a small amount, observe the changes in their behavior, diet, work and rest; and use cells as an observation to explore their impact on the foundation of life. After months of research, it is clear that the signs of toxicity can be used as evidence for protection and disposal, so that workers can be safe and the environment is peaceful. Do not let the poison of this product harm all living beings.
Future Prospects
In today's world, Monoisopropylamine has extraordinary potential. It can be used in various fields of industry, or it can open up new paths. In terms of chemical manufacturing, it can be the foundation of new materials, promoting the improvement of product performance and developing different characteristics. In the realm of scientific research, it can also be the key to exploring the unknown, and it can inspire new reactions and new synthesis methods.
In the future, it may be seen in the field of medicine. Or help develop special drugs, treat intractable diseases, and add bricks to health and well-being. In agriculture, it may become the foundation of new agrochemical products, protecting crops and maintaining a bumper harvest.
Although the road ahead is uncertain, it contains opportunities, just like unpolished jade. With time, careful study, will be able to carve into tools, in all areas of the show, for the world to bring endless expectations and possibilities.
In the future, it may be seen in the field of medicine. Or help develop special drugs, treat intractable diseases, and add bricks to health and well-being. In agriculture, it may become the foundation of new agrochemical products, protecting crops and maintaining a bumper harvest.
Although the road ahead is uncertain, it contains opportunities, just like unpolished jade. With time, careful study, will be able to carve into tools, in all areas of the show, for the world to bring endless expectations and possibilities.
Where to Buy Monoisopropylamine in China?
As a trusted Monoisopropylamine manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery.
Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
As a leading Monoisopropylamine supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What are the main uses of Monoisopropylamine?
Monoisopropylamine, that is, isopropylamine, its main uses are as follows:
isopropylamine is widely used in chemical preparation. First, in the field of pesticides, it is an important raw material. Based on this, a variety of high-efficiency pesticides can be prepared, which can be used to kill pests, eliminate weeds, ensure the vigorous growth of food, vegetables and fruits, and protect farmland from pests and diseases, which is related to the livelihood of the people and the food security of the society.
Furthermore, in the pharmaceutical industry, it also plays a key role. It can be used as an intermediate for the synthesis of many drugs, to help develop and produce various kinds of medicine for treating patients and saving people, such as some analgesic and antibacterial drugs, to relieve pain and restore health for patients. It is a powerful tool in the hands of doctors to treat diseases.
In addition, isopropylamine is also indispensable in rubber additives. It can participate in synthetic rubber additives, enhance the performance of rubber, make rubber products more durable and tough, and improve the quality and service life of products in the manufacture of rubber products such as tires and hoses. It meets the diverse needs of industrial production and people's lives for rubber products.
And in the preparation of surfactants, isopropylamine is also useful. In this way, different types of surfactants can be synthesized, which are widely used in daily chemical, textile and other industries, or to help decontaminate detergents, or to play a unique role in the printing and dyeing process of textiles. It is closely related to people's daily life and industrial production.
What are the physical properties of Monoisopropylamine?
Monopropylamine is an organic compound. Its physical properties are numerous, and I will describe them in detail for you.
Monopropylamine is colorless and transparent, just like water, and has a specific ammonia odor, which is pungent. Its boiling point is about 32 ° C, and it is easy to vaporize when heated and rises in the air. The melting point is as low as about -95 ° C, and it is difficult to solidify in cold weather.
Monopropylamine has a lighter density than water, about 0.694g/cm ³. If it is juxtaposed with water, it will float on water. Its solubility is different, and it can be miscible with water, and it can also be mixed with organic solvents such as alcohols and ethers, just like water emulsion.
Monopropylamine is highly volatile. When placed in the air, it instantly turns into a gaseous state and dissipates invisibly. Because of its characteristics, it needs to be tightly sealed when stored to prevent escape. And it is flammable, and it is very easy to burn in case of open flames and hot topics, or even cause the danger of explosion. It must be used with caution, away from fire and heat sources, and properly protected.
In addition, the vapor of monopropylamine is heavier than air and can spread to a distance along the ground. If it is accidentally leaked, its vapor may accumulate in low-lying places, and it will cause unexpected disasters in case of fire. Therefore, the operation field needs to be well ventilated to prevent the accumulation of steam and endanger safety.
What are the chemical properties of Monoisopropylamine?
Monoisopropylamine is also an organic compound. It is active and has a wide range of uses in various fields of chemical industry.
Looking at its physical properties, at room temperature and pressure, monoisopropylamine is in the shape of a colorless liquid, with a strong ammonia smell and pungent taste. The boiling point is about 33 ° C. At this temperature, it is easy to vaporize. Its melting point is around -95 ° C, and it can still maintain a liquid state in a low temperature environment. Its density is less than that of water. If mixed with water, it floats on water.
As for chemical properties, monoisopropylamine is alkaline. Because its nitrogen atom has lone pairs of electrons, it can accept protons and neutralize with acids to form corresponding salts. If it encounters hydrochloric acid, it will be synthesized into isopropylamine hydrochloride. And it has nucleophilic properties, and can be used as a nucleophilic reagent in many organic reactions to react with halogenated hydrocarbons, carbonyl compounds, etc. For example, when reacting with halogenated hydrocarbons, nitrogen atoms will attack the carbon atoms of halogenated hydrocarbons, and the halogenated atoms will leave, resulting in the formation of new organic compounds.
And because of its alkaline and active chemistry, monoisopropylamine is also corrosive to a certain extent. When storing and using, it needs to be handled with caution to prevent corrosion of the container and harm to the human body.
What are the precautions for Monoisopropylamine during storage and transportation?
Monoisopropylamine is lively and should not be carelessly stored and transported. Its storage should be placed in a cool and ventilated warehouse, away from fire and heat sources, and the warehouse temperature should not exceed 30 ° C. It must be stored separately from oxidants, acids and edible chemicals, and should not be mixed. The storage area should be equipped with leakage emergency treatment equipment and suitable containment materials.
Its transportation must be reported to the relevant departments for approval before transportation. The tank (tank) car used during transportation should have a grounding chain, and holes can be set in the tank to reduce shock and generate static electricity. It is strictly forbidden to mix with oxidants, acids and edible chemicals. During transportation, it should be protected from exposure to the sun, rain and high temperature. Stopovers should be kept away from fires, heat sources and high temperature areas. The exhaust pipe of the vehicle loading this item must have a fire arresting device, and the use of spark-prone machinery and tools for loading and unloading is prohibited. Road transportation should be carried according to the specified route, and do not stop in residential areas and densely populated areas. Railway transportation should be prohibited from slipping. Loading and unloading personnel should handle lightly to prevent damage to packaging and containers. In this way, the storage and transportation of isopropylamine is safe.
What are the preparation methods of Monoisopropylamine?
The method of preparing isopropylamine (Monoisopropylamine) has been known for a long time. In the past, isopropanol and ammonia were often used as raw materials, and the reaction was obtained by the force of a catalyst at a suitable temperature and pressure. The reaction process, such as isopropanol and ammonia on the surface of the catalyst, goes through the steps of adsorption, reaction, desorption, etc., and gradually forms isopropylamine. The catalyst used may be a metal oxide, such as alumina, to help it speed up the reaction rate and increase the yield.
There are also those who use acetone as the starting material. First, acetone is reacted with ammonia and hydrogen under the action of the catalyst. After hydrogenation and amination, the carbonyl group of acetone is obtained and combined with ammonia to convert into isopropylamine. In this process, the activity and selectivity of the catalyst are very critical, affecting the purity and yield of the product.
Another method is to use acrylonitrile as a raw material. Acrylonitrile is first hydrolyzed to produce acrylamide, and then reduced to obtain isopropylamine. However, this approach is a little more complicated, and the control of reaction conditions is strict, and fine operation is required to ensure the smooth progress of each step of the reaction and improve the output of isopropylamine.
All methods for preparing isopropylamine have their own advantages and disadvantages. In practical applications, the appropriate method should be carefully selected according to factors such as the availability of raw materials, cost, and product purity requirements, in order to produce isopropylamine efficiently and economically.
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