Shanxian Chemical
PRODUCTS
Tripropylamine
Shanxian Chemical
|
HS Code |
554275 |
| Chemical Formula | C9H21N |
| Molar Mass | 143.27 g/mol |
| Appearance | Colorless liquid |
| Odor | Ammonia - like odor |
| Density | 0.755 g/cm³ (at 20 °C) |
| Boiling Point | 156 - 157 °C |
| Melting Point | -93.5 °C |
| Solubility In Water | Slightly soluble |
| Flash Point | 36 °C (closed - cup) |
| Refractive Index | 1.4175 (at 20 °C) |
As an accredited Tripropylamine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Tripropylamine packaged in 5 - liter containers for chemical use. |
| Storage | Tripropylamine should be stored in a cool, well - ventilated area away from heat sources, sparks, and open flames as it is flammable. Keep it in tightly closed containers to prevent vapor release. Store it separately from oxidizing agents and acids to avoid reactions. Ensure the storage area has proper spill - containment measures in case of leaks. |
| Shipping | Tripropylamine, a chemical, is shipped in well - sealed, corrosion - resistant containers. Strict adherence to hazardous material regulations ensures safe transport, maintaining its integrity during transit to prevent any potential risks. |
Competitive Tripropylamine 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
Tripropylamine is also an organic compound. Its beginning can be traced back to the early days of chemical exploration. At that time, many people studied for new substances, and after countless attempts, they obtained this amine.
At the beginning, the preparation was difficult, the yield was rare, and only a few intensive research rooms existed. As the years progressed, the chemical technology improved, the method improved, and the output gradually increased. It has emerged in various fields of chemical industry and is an important corner of organic synthesis.
In the past, it was limited to small trials, but now it is on a large scale. From the end of the laboratory to the grandeur of industrial production, the development of Tripropylamine has witnessed the evolution of chemical history, from ignorance to clarity, paving the way for the future prosperity of chemical industry, and has made remarkable achievements.
At the beginning, the preparation was difficult, the yield was rare, and only a few intensive research rooms existed. As the years progressed, the chemical technology improved, the method improved, and the output gradually increased. It has emerged in various fields of chemical industry and is an important corner of organic synthesis.
In the past, it was limited to small trials, but now it is on a large scale. From the end of the laboratory to the grandeur of industrial production, the development of Tripropylamine has witnessed the evolution of chemical history, from ignorance to clarity, paving the way for the future prosperity of chemical industry, and has made remarkable achievements.
Product Overview
Tripropylamine is a colorless liquid with the odor of ammonia. This substance can be obtained by reacting halogenated propane with ammonia.
Tripropylamine has a wide range of uses and is often used as an intermediate in the field of organic synthesis. It can participate in many reactions and assist in the preparation of various organic compounds. In the pharmaceutical and chemical industries, it is also useful, or involved in the synthesis of drugs.
Looking at its properties, the boiling point is moderate, and it is in a flowing state at room temperature. And it has a certain solubility and is soluble in some organic solvents. Because of its chemical properties, in the chemical production process, it is often necessary to operate properly and follow the specifications to ensure safety and give full play to its effectiveness to obtain the required products.
Tripropylamine has a wide range of uses and is often used as an intermediate in the field of organic synthesis. It can participate in many reactions and assist in the preparation of various organic compounds. In the pharmaceutical and chemical industries, it is also useful, or involved in the synthesis of drugs.
Looking at its properties, the boiling point is moderate, and it is in a flowing state at room temperature. And it has a certain solubility and is soluble in some organic solvents. Because of its chemical properties, in the chemical production process, it is often necessary to operate properly and follow the specifications to ensure safety and give full play to its effectiveness to obtain the required products.
Physical & Chemical Properties
"Physicochemistry of Matter"
Tripropylamine is also an organic compound. It is a colorless and transparent liquid with an odor of ammonia. Its boiling point is between 156 and 157 ° C. This characteristic allows it to be separated by distillation according to the difference in boiling point in the experimental operation of separation and purification. Its density is about 0.7556g/cm ³, which is lighter than water. When separating liquid and liquid, this density difference is quite critical.
Tripropylamine is soluble in organic solvents such as ethanol and ether, but slightly soluble in water. This solubility is related to its application in different solvent systems. Its alkaline characteristics cannot be ignored, and it can neutralize with acids. In organic synthesis, it is often used as a base catalyst to participate in various reactions, which has a profound impact on the reaction process and product structure.
Tripropylamine is also an organic compound. It is a colorless and transparent liquid with an odor of ammonia. Its boiling point is between 156 and 157 ° C. This characteristic allows it to be separated by distillation according to the difference in boiling point in the experimental operation of separation and purification. Its density is about 0.7556g/cm ³, which is lighter than water. When separating liquid and liquid, this density difference is quite critical.
Tripropylamine is soluble in organic solvents such as ethanol and ether, but slightly soluble in water. This solubility is related to its application in different solvent systems. Its alkaline characteristics cannot be ignored, and it can neutralize with acids. In organic synthesis, it is often used as a base catalyst to participate in various reactions, which has a profound impact on the reaction process and product structure.
Technical Specifications & Labeling
Tripropylamine is an organic compound, and its preparation needs to follow specific process specifications and standards.
When preparing, the selection of raw materials is the key. High-purity n-propanol, ammonia, etc. should be used as starting materials to precisely control their quality parameters. The reaction process must be carried out under suitable temperature and pressure conditions. Generally speaking, the temperature should be maintained at about [X] ° C and the pressure is about [X] MPa to promote the efficient occurrence of the reaction.
The specifications and indicators of the product cannot be ignored. The appearance should be a colorless transparent liquid, and the smell should have the unique smell of the substance. The content should not be less than [X]%, and the moisture content must be controlled below [X]%. The impurity content needs to strictly follow the relevant standards, such as the heavy metal content should be lower than [X] ppm.
In the quality inspection process, advanced analytical methods such as gas chromatography and mass spectrometry can be used to accurately determine its composition and purity to ensure that the product meets the established technical specifications and labeling requirements to meet the needs of various application scenarios.
When preparing, the selection of raw materials is the key. High-purity n-propanol, ammonia, etc. should be used as starting materials to precisely control their quality parameters. The reaction process must be carried out under suitable temperature and pressure conditions. Generally speaking, the temperature should be maintained at about [X] ° C and the pressure is about [X] MPa to promote the efficient occurrence of the reaction.
The specifications and indicators of the product cannot be ignored. The appearance should be a colorless transparent liquid, and the smell should have the unique smell of the substance. The content should not be less than [X]%, and the moisture content must be controlled below [X]%. The impurity content needs to strictly follow the relevant standards, such as the heavy metal content should be lower than [X] ppm.
In the quality inspection process, advanced analytical methods such as gas chromatography and mass spectrometry can be used to accurately determine its composition and purity to ensure that the product meets the established technical specifications and labeling requirements to meet the needs of various application scenarios.
Preparation Method
Tripropylamine is also an organic compound. The preparation method, raw materials and production process are very critical. Halogenated propane and ammonia are used as raw materials, and under suitable reaction conditions, the two interact. First, the halogen atom of halogenated propane undergoes nucleophilic substitution reaction with ammonia, which is a key step. The reaction process requires precise control of temperature, pressure and reaction time to ensure the efficient progress of the reaction.
The reaction goes through multiple steps to gradually generate Tripropylamine. After formation, it needs to be separated and purified. Using distillation and other techniques to remove unreacted raw materials and by-products to obtain high-purity Tripropylamine. In this preparation method, the catalytic mechanism cannot be ignored. Appropriate catalysts can significantly improve the reaction rate and product selectivity, and help Tripropylamine produce high-quality.
The reaction goes through multiple steps to gradually generate Tripropylamine. After formation, it needs to be separated and purified. Using distillation and other techniques to remove unreacted raw materials and by-products to obtain high-purity Tripropylamine. In this preparation method, the catalytic mechanism cannot be ignored. Appropriate catalysts can significantly improve the reaction rate and product selectivity, and help Tripropylamine produce high-quality.
Chemical Reactions & Modifications
Tripropylamine is also an organic compound. Its chemical reaction and modification are worthy of investigation. In the past research, it is common for it to participate in the reaction of nucleophilic substitution, such as interacting with halogenated hydrocarbons to form C-N bonds, which is a key step in organic synthesis.
However, its reaction also has limitations. If the rate is not ideal and the conditions are not suitable, the yield will not be high. Therefore, the way of modification is imperative. Suitable substituents can be introduced to adjust the electron cloud density and increase its reactivity. Or special catalysts can be selected to promote the reaction and change the process of chemical kinetics.
After many attempts, it is expected to expand its application field, develop its unique capabilities in the fields of medicine and materials, and contribute to the progress of chemistry.
However, its reaction also has limitations. If the rate is not ideal and the conditions are not suitable, the yield will not be high. Therefore, the way of modification is imperative. Suitable substituents can be introduced to adjust the electron cloud density and increase its reactivity. Or special catalysts can be selected to promote the reaction and change the process of chemical kinetics.
After many attempts, it is expected to expand its application field, develop its unique capabilities in the fields of medicine and materials, and contribute to the progress of chemistry.
Synonyms & Product Names
"On the Synonyms and Trade Names of Tripropylamine"
Tripropylamine is also a chemical product. Its synonyms and trade names are crucial in the industry. Tripropylamine, also known as tripropylamine, is a common synonym. As far as trade names are concerned, there are many merchants in the market who name them under different names.
Because of the differences in industry usage habits and commercial needs, synonyms and trade names are diverse. For example, in some specific chemical product series, "tripropylamine superior product" is used as its trade name. Although it is the same in essence as tripropylamine, it is called differently. Or in the field of fine chemicals, due to differences in product purity and use, the trade name "high-purity tripropylamine refined products" is derived. This is all designed to meet different customer needs and market positioning. Knowing its synonyms and trade names is indispensable in chemical research, production and trade, which can avoid miscommunication due to confusion and promote the smooth development of the industry.
Tripropylamine is also a chemical product. Its synonyms and trade names are crucial in the industry. Tripropylamine, also known as tripropylamine, is a common synonym. As far as trade names are concerned, there are many merchants in the market who name them under different names.
Because of the differences in industry usage habits and commercial needs, synonyms and trade names are diverse. For example, in some specific chemical product series, "tripropylamine superior product" is used as its trade name. Although it is the same in essence as tripropylamine, it is called differently. Or in the field of fine chemicals, due to differences in product purity and use, the trade name "high-purity tripropylamine refined products" is derived. This is all designed to meet different customer needs and market positioning. Knowing its synonyms and trade names is indispensable in chemical research, production and trade, which can avoid miscommunication due to confusion and promote the smooth development of the industry.
Safety & Operational Standards
"Code of Safety and Operation of Tripropylamine Products"
If tripropylamine is used, it is also a chemical substance. Its characteristics are special, and it is related to safety and operation. Don't be careless.
For the sake of safety, store it first. It should be placed in a cool and ventilated place, away from fire and heat sources. The warehouse temperature should not exceed 30 ° C to prevent it from being dangerous due to heat. And it should be stored separately with oxidants and acids. It should not be mixed with each other to avoid chemical reactions and cause disasters.
When operating, strictly abide by the procedures. Operators need to be professionally trained and familiar with its properties and laws. There should be good ventilation in the operation room to drain harmful gases. Operators should wear protective clothing, protective gloves and masks to protect themselves.
When taking it, the movement should be slow to prevent it from splashing. If you accidentally touch the body, you should quickly rinse with a lot of water, and if it is serious, seek medical attention immediately. In case of fire, because it is flammable, you can use foam, carbon dioxide, dry powder and other fire extinguishing agents, and do not use water.
When transporting, you should also follow the regulations. The packaging should be tight to ensure that there is no leakage. Vehicles should be specially selected for transporting chemical substances, and there are warning signs. Protection from sun exposure, rain and vibration on the way.
These are the standards for the safety and operation of tripropylamine. Practitioners should keep it in mind and practice it in order to be safe.
If tripropylamine is used, it is also a chemical substance. Its characteristics are special, and it is related to safety and operation. Don't be careless.
For the sake of safety, store it first. It should be placed in a cool and ventilated place, away from fire and heat sources. The warehouse temperature should not exceed 30 ° C to prevent it from being dangerous due to heat. And it should be stored separately with oxidants and acids. It should not be mixed with each other to avoid chemical reactions and cause disasters.
When operating, strictly abide by the procedures. Operators need to be professionally trained and familiar with its properties and laws. There should be good ventilation in the operation room to drain harmful gases. Operators should wear protective clothing, protective gloves and masks to protect themselves.
When taking it, the movement should be slow to prevent it from splashing. If you accidentally touch the body, you should quickly rinse with a lot of water, and if it is serious, seek medical attention immediately. In case of fire, because it is flammable, you can use foam, carbon dioxide, dry powder and other fire extinguishing agents, and do not use water.
When transporting, you should also follow the regulations. The packaging should be tight to ensure that there is no leakage. Vehicles should be specially selected for transporting chemical substances, and there are warning signs. Protection from sun exposure, rain and vibration on the way.
These are the standards for the safety and operation of tripropylamine. Practitioners should keep it in mind and practice it in order to be safe.
Application Area
Tripropylamine is also used to transform things. Its use is also involved in the field of engineering. In the field of engineering, it is often used to catalyze, to help make things more efficient, to increase its rate, and to improve its efficiency. In the field of synthesis, it is also important to make a lot of materials, so that molecules can be exquisitely shaped.
In terms of research and development, it is also useful. It can assist in the extraction of active ingredients, or the process of synthesis of substances, to generate the results. Furthermore, in the field of materials, Tripropylamine can also affect the performance of materials and help in the research and development of new materials. Moreover, in many "application domains", it is like a hand in the shape of a hand, promoting various development, and its role is indispensable.
In terms of research and development, it is also useful. It can assist in the extraction of active ingredients, or the process of synthesis of substances, to generate the results. Furthermore, in the field of materials, Tripropylamine can also affect the performance of materials and help in the research and development of new materials. Moreover, in many "application domains", it is like a hand in the shape of a hand, promoting various development, and its role is indispensable.
Research & Development
Tripropylamine is also a chemical substance. We have been dedicated to its research and development for a long time. In the past, the synthesis method was still simple, and the yield was quite low. However, through our unremitting research and improvement of the process, the yield has been greatly improved today.
Looking at its application, it has a significant effect in the field of organic synthesis. It can be used as a catalyst to accelerate many reaction processes. However, its development path also poses challenges. For example, the impact on the environment, how to produce and use it more environmentally friendly is our current concern.
We will continue to explore with the spirit of science, and strive to achieve new frontiers in the research and development of Tripropylamine, adding bricks and mortar to the field of chemistry and benefiting everyone.
Looking at its application, it has a significant effect in the field of organic synthesis. It can be used as a catalyst to accelerate many reaction processes. However, its development path also poses challenges. For example, the impact on the environment, how to produce and use it more environmentally friendly is our current concern.
We will continue to explore with the spirit of science, and strive to achieve new frontiers in the research and development of Tripropylamine, adding bricks and mortar to the field of chemistry and benefiting everyone.
Toxicity Research
The taste of chemical products is related to people's livelihood. Tripropylamine is also important in the field of chemical industry. Today, explore its toxicity to understand its benefits.
Tripropylamine has certain toxicity, its gas is pungent, if accidentally inhaled, or cause respiratory diseases, mild coughing, chest tightness, severe or damage to the lungs. It touches the skin and can cause discomfort or even burns. If taken by mistake, the viscera will suffer from it.
Therefore, when studying its production, it is necessary to strictly abide by the law, and the operator must prepare protective equipment to prevent the invasion of toxicity. It is also necessary to carefully investigate its nature to find ways to avoid harm and ensure the well-being of the people, so that when this thing is available, there is no danger, which is the right way to study this thing.
Tripropylamine has certain toxicity, its gas is pungent, if accidentally inhaled, or cause respiratory diseases, mild coughing, chest tightness, severe or damage to the lungs. It touches the skin and can cause discomfort or even burns. If taken by mistake, the viscera will suffer from it.
Therefore, when studying its production, it is necessary to strictly abide by the law, and the operator must prepare protective equipment to prevent the invasion of toxicity. It is also necessary to carefully investigate its nature to find ways to avoid harm and ensure the well-being of the people, so that when this thing is available, there is no danger, which is the right way to study this thing.
Future Prospects
Tripropylamine is also a chemical substance. Looking at the current state, it has been used in various fields of chemical industry. However, looking to the future, its development still has a grand vision.
In the synthesis of technology, it is expected to become more subtle, so that the yield of Tripropylamine increases, the higher the purity. And its application domains will also be expanded. Or in the preparation of new materials, emerging, adding color to the properties of materials.
Under the tide of green chemistry, its preparation process may be more environmentally friendly, reducing consumption and reducing emissions, and being in harmony with nature. Scientists should study diligently, break through the barriers of technology, and make Tripropylamine shine in the future, contributing to the progress of the chemical industry and the wide use of the world.
In the synthesis of technology, it is expected to become more subtle, so that the yield of Tripropylamine increases, the higher the purity. And its application domains will also be expanded. Or in the preparation of new materials, emerging, adding color to the properties of materials.
Under the tide of green chemistry, its preparation process may be more environmentally friendly, reducing consumption and reducing emissions, and being in harmony with nature. Scientists should study diligently, break through the barriers of technology, and make Tripropylamine shine in the future, contributing to the progress of the chemical industry and the wide use of the world.
Where to Buy Tripropylamine in China?
As a trusted Tripropylamine 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 Tripropylamine 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 tripropylamine?
The three branch bitterness, its main use is quite extensive. In the way of medicine, the three branch bitterness is valued by doctors because of its unique nature. Its roots and leaves can be used as medicine, cold in nature, and bitter in taste. It has the effect of clearing away heat and detoxifying, removing wind and dehumidifying. In the land of Lingnan, it is common for doctors to treat exogenous fever, swelling and pain in the throat. Gaiyin three branch bitterness can evacuate wind and heat, so that evil has a way out, and heat subsides and swells. And for rheumatism pain, it also has a good effect, which can remove wind and clear collaterals, relieve the pain of joint convulsion, and make qi and blood unobstructed.
In all kinds of life, three branch bitterness also has its use. Its branches and leaves have a unique smell. In the old days, people picked more of their branches and leaves and placed them in their homes to avoid mosquitoes. Because of its smell, mosquitoes can escape far away and keep their homes clean. And because of its beautiful tree shape and lush branches and leaves, it is also often used in garden landscape layout. In gardens, planting three branches of bitterness can not only add greenery, but also have natural wildness, making the garden more vibrant.
Furthermore, in the traditional brewing process, three branches of bitterness occasionally participate. Some brewers will add an appropriate amount of it to the brewing raw materials to add a different flavor to the wine. The wine made may have a special aroma or add layers to the taste, giving it a unique taste.
From this perspective, the three branches suffer in many aspects such as medicine, life and brewing, and they all have their uses that cannot be ignored. They are actually treasures bestowed by nature.
What are the physical properties of tripropylamine?
Sanren ointment has all kinds of physical properties. It is thick and thick, in a paste-like state, like condensation and smooth, and has a moist feeling to the touch. This is its appearance.
As far as its viscosity is concerned, it is quite viscous and can stick to other things, and it is not easy to fall off. Place it on an utensil and attach it firmly. If you want to wipe it off, it will take some effort.
Its color is mostly light yellow or light brown, like the leaves of autumn, with a bit of simplicity and softness, giving people a sense of peace.
As for the smell, Sanren ointment exudes a unique fragrance, which is formed by the blend of the aroma of various nuts. The elegance of almonds, the mellowness of peach kernels, and the fragrance of other kernels are intertwined to form a unique rich and pleasant smell, which is refreshing to the soul.
In terms of solubility, Sanren ointment is difficult to dissolve in water. If placed in water, it mostly floats on the water surface, and it is difficult to blend with water after standing for a long time. In addition, although the texture of Sanren ointment is paste-like, it is not stiff and slightly elastic. When pressed with a finger, a depression can be seen. After letting go, it can slowly return to its original state. It has a certain plasticity and can be molded into different shapes as needed. This is also the physical properties of Sanren ointment.
What are the precautions for storing tripropylamine?
When hiding three dogwoods, you should be careful about all kinds of things. Its nature is delicate, it is afraid of cold and dryness, and it is advisable to keep it in a damp and cool place, and avoid the strong wind. When hiding utensils, you also need to choose good ones. It is better to use porcelain and pottery, which can keep its qi and sex. Do not use iron utensils, for fear of being confused with them and damaging their authenticity.
When hiding, you must check its quality. Choose those whose shape is complete, whose color is correct, and whose taste is pure, and remove the genus that is rotten and insect-eaten. In this way, you can keep it for a long time. You need to keep an eye on it often. If you see mildew or peculiar smell, you can dispose of it quickly, and you can't take it off.
And the three dogwoods Therefore, the hiding place should be quiet, so as not to disturb its qi. Nor should it be mixed with other medicines, so as not to mix with the smell and mess with its work.
Furthermore, it is sometimes hidden. Summer, heat and winter are not good times. Appropriate for spring and autumn, at this time the qi is harmonious, and it can protect its quality. Tibetans, when they are in accordance with the sky, they are in line with the nature of things, so that the three dogwoods can keep their effect for a long time, so that they can be used.
What are the synthesis methods of tripropylamine?
There are various methods for the synthesis of triterpenes, which are selected to be described.
One is to extract and separate from natural products. Many plants and fungi are rich in triterpenes. For example, ginseng, whose roots contain a variety of ginsenosides, belongs to the triterpene saponins. It can be extracted with appropriate solvents, such as ethanol, methanol, etc., to obtain crude extracts. Then through a variety of column chromatography, such as silica gel column chromatography, macroporous adsorption resin column chromatography, etc., according to the difference in the partition coefficient of triterpenoids and impurities between the stationary phase and the mobile phase, the separation and purification are achieved to obtain a single triterpenoid component.
The second is chemical total synthesis. By designing a reasonable synthesis route, simple and easy-to-obtain compounds are used as the starting materials. For example, ethyl acetoacetate, diethyl malonate, etc. are used as the starting materials, and a series of organic chemical reactions, such as condensation, cyclization, oxidation, reduction, etc., are used to construct the basic skeleton of triterpenes. However, this process requires precise control of the reaction conditions. Due to the complex structure of triterpenes and various reaction steps, the selectivity and yield of the reaction are quite high.
The third is the semi-synthesis method. Taking naturally occurring triterpenoids as the parent, their structures are chemically modified. For example, common triterpenes such as oleanolic acid and ursolic acid are structurally modified. By changing the type, position and quantity of its substituents, a series of triterpenoid derivatives with different biological activities can be obtained. This method can simplify the synthesis step to a certain extent, and can use the original active basis of natural triterpenes to develop new active substances.
There is also a biosynthesis method. With the help of microbial or plant cell culture technology, simple precursor substances can be converted into triterpenoids by using the enzyme system in organisms. For example, some yeast, filamentous fungi and other microorganisms can synthesize triterpenoids under specific culture conditions. Or through plant cell culture, specific precursor substances are added to induce cells to synthesize target triterpenes. This method is green and environmentally friendly, but currently faces problems such as high culture cost and low yield, and further optimization of culture conditions and technologies is needed.
What are the effects of tripropylamine on the environment and human health?
Three branch bitter, its taste is bitter and cold, and its nature is cool. It has an impact on both the environment and human health, as detailed below:
Impact on the environment
1. ** Maintenance of ecological balance **: Three branch bitter is an evergreen shrub or small tree with lush branches and leaves. In the mountains and forests, its root system can stabilize soil and retain water, and prevent soil erosion. Its canopy can provide habitat and hiding places for many animals, such as birds nesting. Insects also use it as a food source and habitat. It occupies an important link in the biological chain and contributes greatly to maintaining the stability of the ecosystem.
2. ** Regulate climate **: Three branch bitter emits a large amount of water vapor into the air through transpiration, increasing air humidity and regulating local climate. At the same time, its photosynthesis absorbs carbon dioxide and releases oxygen, which plays an important role in purifying the air and improving the quality of the atmosphere, and plays an important role in maintaining the balance of carbon and oxygen.
Effects on human health
1. ** Medicinal value **: The three branches are used as medicine with roots and leaves, which has the effect of clearing away heat and detoxifying, removing wind and dehumidifying. Traditional medicine often uses it to treat colds and fever, sore throat, jaundice, rheumatism and bone pain. If it treats colds and fever, it can evacuate wind and heat, relieve fever, headache and other symptoms. For sore throat, it can clear away heat and detoxify and improve throat, and relieve local redness, swelling and pain. Modern research also shows that the three branch bitter contains alkaloids, flavonoids and other chemical components, with antibacterial, anti-inflammatory, antiviral and other pharmacological activities.
2. ** Health effects **: In some areas, the three branch bitter young leaves are made into tea. Drinking in moderation can clear heat and reduce fire, especially for people who have heat in the body and are prone to getting angry. Drinking in summer can relieve heat and refresh the mind. However, due to its cold nature, those with spleen and stomach deficiency should use it with caution, so as not to damage the spleen and stomach yang, causing abdominal pain, diarrhea and other discomfort.
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