Shanxian Chemical
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Trihexylphosphine Oxide
Shanxian Chemical
|
HS Code |
468356 |
| Name | Trihexylphosphine Oxide |
| Chemical Formula | C18H39OP |
| Molecular Weight | 302.475 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Boiling Point | 377.8 °C at 760 mmHg |
| Melting Point | 22 - 24 °C |
| Density | 0.929 g/cm³ |
| Flash Point | 182.3 °C |
| Solubility | Soluble in many organic solvents |
| Vapor Pressure | 0.000138 mmHg at 25 °C |
| Refractive Index | 1.458 - 1.461 |
As an accredited Trihexylphosphine Oxide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Trihexylphosphine Oxide packaged in 1 - kg containers for secure storage and transport. |
| Storage | Trihexylphosphine oxide should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition points. Keep it in a tightly sealed container to prevent contact with air and moisture, which could potentially lead to decomposition or reactivity. Store it separately from oxidizing agents and acids to avoid hazardous reactions. |
| Shipping | Trihexylphosphine Oxide is shipped in tightly - sealed, corrosion - resistant containers. These are carefully packed to prevent leakage during transit. Special handling procedures following chemical shipping regulations are adhered to ensure safety. |
Competitive Trihexylphosphine Oxide 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
"Memorizing the Development of Trihexyl Phosphine Oxide"
Trihexyl phosphine oxide is also a chemical substance. It first appeared on the road of research and development, and was obtained by the sages. In the past, the field of chemistry was not yet clear, and all kinds of substances were waiting for the sages to explore.
Over the years, scholars have devoted themselves to research and gradually understood its properties. At first, the preparation method was difficult and difficult, and it was very difficult to obtain. However, everyone worked tirelessly, and with the passage of time, the preparation technique became more and more exquisite.
Viewing its application, it was only limited to a narrow domain at first, and then with the improvement of cognition, its use gradually widened. In the field of extraction and separation, it has emerged, which is important for industry and scientific research. Its development is also like a boat sailing on the sea, even though it has experienced turbulence and clouds, it has finally reached the realm of light, becoming an indispensable existence in chemical substances, paving the way for future research and application.
Trihexyl phosphine oxide is also a chemical substance. It first appeared on the road of research and development, and was obtained by the sages. In the past, the field of chemistry was not yet clear, and all kinds of substances were waiting for the sages to explore.
Over the years, scholars have devoted themselves to research and gradually understood its properties. At first, the preparation method was difficult and difficult, and it was very difficult to obtain. However, everyone worked tirelessly, and with the passage of time, the preparation technique became more and more exquisite.
Viewing its application, it was only limited to a narrow domain at first, and then with the improvement of cognition, its use gradually widened. In the field of extraction and separation, it has emerged, which is important for industry and scientific research. Its development is also like a boat sailing on the sea, even though it has experienced turbulence and clouds, it has finally reached the realm of light, becoming an indispensable existence in chemical substances, paving the way for future research and application.
Product Overview
Trihexylphosphine Oxide is also a chemical substance. It may be a colorless to pale yellow liquid with specific chemical properties. This substance is widely used in the fields of chemistry and materials science.
Trihexylphosphine Oxide can be used as an extractant, showing extraordinary performance in the separation and purification of metal ions. It can be combined with specific metal ions to separate metal ions from complex mixtures and facilitate precise refining.
Trihexylphosphine Oxide is also useful in the process of material synthesis. It can regulate the rate and direction of the reaction, affect the structure and properties of the product, and contribute to the research and development of new materials. With its unique chemical properties, Trihexylphosphine Oxide plays an important role in many chemical-related fields, promoting the development of scientific research and industry.
Trihexylphosphine Oxide can be used as an extractant, showing extraordinary performance in the separation and purification of metal ions. It can be combined with specific metal ions to separate metal ions from complex mixtures and facilitate precise refining.
Trihexylphosphine Oxide is also useful in the process of material synthesis. It can regulate the rate and direction of the reaction, affect the structure and properties of the product, and contribute to the research and development of new materials. With its unique chemical properties, Trihexylphosphine Oxide plays an important role in many chemical-related fields, promoting the development of scientific research and industry.
Physical & Chemical Properties
Trihexylphosphine Oxide is also a chemical substance. Its physical properties can be investigated. Its shape is often liquid, and its color is almost transparent, which is its physical and external properties. As for chemical activity, it has a certain degree of qualitative, and can be used as a special medium or catalytic aid component in the system of multiple chemical reactions. Its physical properties such as boiling and melting also have specific values. In the boiling process, the melting rate is low. This property makes it possible to show different physical properties under different degrees of temperature. In the process of chemical synthesis and fractionation, it can be made good use of according to its properties, so as to assist in the research and development of chemical engineering.
Technical Specifications & Labeling
Today there is Trihexylphosphine Oxide, which is widely used in many fields of industry. Its technical specifications and identification (product parameters) are the key.
The purity of Trihexylphosphine Oxide should reach an extremely high standard, and the impurity content must be strictly controlled at an extremely small level. Its color should be pure and free of variegated stains. The appearance and shape are also fixed, or it is a clear liquid with uniform texture and no precipitation or suspended matter.
On the label, the product name, chemical formula, content and other key parameters must be clearly marked and cannot be mistaken. On the packaging, important information such as safety warnings and storage conditions should also be clearly displayed to ensure the safety of use and storage. By strictly adhering to the technical specifications and identification (product parameters), Trihexylphosphine Oxide can give full play to its effectiveness and demonstrate its function in various industries.
The purity of Trihexylphosphine Oxide should reach an extremely high standard, and the impurity content must be strictly controlled at an extremely small level. Its color should be pure and free of variegated stains. The appearance and shape are also fixed, or it is a clear liquid with uniform texture and no precipitation or suspended matter.
On the label, the product name, chemical formula, content and other key parameters must be clearly marked and cannot be mistaken. On the packaging, important information such as safety warnings and storage conditions should also be clearly displayed to ensure the safety of use and storage. By strictly adhering to the technical specifications and identification (product parameters), Trihexylphosphine Oxide can give full play to its effectiveness and demonstrate its function in various industries.
Preparation Method
Trihexylphosphine Oxide is also a chemical product. The first step in its preparation is to prepare raw materials. Based on an appropriate amount of trihexylphosphine and a suitable oxidizing agent. Place the two in a suitable reactor and control the temperature and pressure to make it react. When reacting, stir slowly to ensure that the raw materials are uniform and promote the speed of the reaction. After the reaction is completed, separate and purify. By distillation and extraction, its impurities are removed to obtain pure Trihexylphosphine Oxide. Among them, the conditions of the reaction, such as temperature, pressure, time, and the proportion of raw materials, are all key. In this way, high-quality Trihexylphosphine Oxide products can be obtained.
Chemical Reactions & Modifications
Trihexylphosphine Oxide is a chemical substance, and its chemical response and modification are crucial in chemical reactions. Past studies have mostly investigated it, but there is still room for improvement.
Looking at its chemical response, under specific conditions, Trihexylphosphine Oxide can combine with many substances to form different products. However, the rate and efficiency of this response often vary depending on the temperature and pressure of the reaction environment and the ratio of reactants.
As for modification, its properties can be optimized by fine-tuning the molecular structure of Trihexylphosphine Oxide. Such as changing its hydrophobicity or increasing its chemical stability. However, the modification process also needs to be carefully controlled so as not to affect its original excellent properties.
In summary, the chemical response and modification of Trihexylphosphine Oxide have made progress, but in order to make it widely used in more fields, it still needs to be further studied to achieve better results.
Looking at its chemical response, under specific conditions, Trihexylphosphine Oxide can combine with many substances to form different products. However, the rate and efficiency of this response often vary depending on the temperature and pressure of the reaction environment and the ratio of reactants.
As for modification, its properties can be optimized by fine-tuning the molecular structure of Trihexylphosphine Oxide. Such as changing its hydrophobicity or increasing its chemical stability. However, the modification process also needs to be carefully controlled so as not to affect its original excellent properties.
In summary, the chemical response and modification of Trihexylphosphine Oxide have made progress, but in order to make it widely used in more fields, it still needs to be further studied to achieve better results.
Synonyms & Product Names
Trihexylphosphine oxide is also a chemical substance. Its name is the same, or trihexylphosphine oxide. It is sold in the market, and it is also known by this two names. This product is used in chemical research, can be extracted, and can be extracted for distribution. It is effective. In the laboratory, researchers often use trihexylphosphine oxide to apply it to various chemical reactions, hoping for good results. Its properties are determined, and it can be used in various environments. Therefore, trihexylphosphine oxide or trihexylphosphine oxide refer to this kind of chemical product, which is indispensable for chemical research.
Safety & Operational Standards
"Trihexylphosphine Oxide Product Safety and Operation Specifications"
For Trihexylphosphine Oxide, chemical products are also used. Its properties are related to safety and operation, and cannot be ignored.
In the realm of safety, this object has specific properties. Store in the room, when avoiding open fires and hot topics. Because of its encounter, or the risk of fire. And in the air, it is appropriate to prevent oxidation. If exposed to improper environment, it may change its properties and produce harmful things.
As for the operation specifications, the first protection. When handling, you must wear appropriate protective clothing, protective gloves and goggles to prevent it from touching the body and hurting the eyes. When taking it, the action should be slow and careful to avoid spillage. If there is a spill, deal with it quickly according to a specific method. First, use a clean device to collect the visible ones, and then absorb the rest with a suitable adsorbent, and then dispose of it properly, so as not to pollute the environment.
Also, when storing, it should be placed in a cool, dry and well-ventilated place. Place it separately to avoid coexistence with incompatible things and prevent their chemical reactions from causing accidents.
Anyone who handles this thing must understand the above safety and operation regulations, and follow them to ensure that everything goes smoothly, without fear of safety, and without harming quality and efficiency. In this way, it is the right way to use this thing.
For Trihexylphosphine Oxide, chemical products are also used. Its properties are related to safety and operation, and cannot be ignored.
In the realm of safety, this object has specific properties. Store in the room, when avoiding open fires and hot topics. Because of its encounter, or the risk of fire. And in the air, it is appropriate to prevent oxidation. If exposed to improper environment, it may change its properties and produce harmful things.
As for the operation specifications, the first protection. When handling, you must wear appropriate protective clothing, protective gloves and goggles to prevent it from touching the body and hurting the eyes. When taking it, the action should be slow and careful to avoid spillage. If there is a spill, deal with it quickly according to a specific method. First, use a clean device to collect the visible ones, and then absorb the rest with a suitable adsorbent, and then dispose of it properly, so as not to pollute the environment.
Also, when storing, it should be placed in a cool, dry and well-ventilated place. Place it separately to avoid coexistence with incompatible things and prevent their chemical reactions from causing accidents.
Anyone who handles this thing must understand the above safety and operation regulations, and follow them to ensure that everything goes smoothly, without fear of safety, and without harming quality and efficiency. In this way, it is the right way to use this thing.
Application Area
Trihexylphosphine Oxide is also a chemical substance. It can be used in the field of application. In the process of extraction, it can combine multiple gold particles, such as rare earth gold particles, so that they can be separated from the mixing of gold particles, and the effectiveness is outstanding. In the context of synthesis, Trihexylphosphine Oxide can act as a catalytic aid, control the rate and direction of reaction, lead to reaction and benefit, and obtain the desired product. And in the field of material science, its ability to improve the performance of materials, affect the performance of materials, and give the special properties of materials, so as to meet the general needs. All this shows the important value of Trihexylphosphine Oxide in the field of application.
Research & Development
Yu Su studies the industry of chemistry, and recently studied this substance in Trihexylphosphine Oxide. This material is very different in nature and has a wide range of uses. It is useful in all things chemical.
I began to investigate its origin, and I studied ancient books in detail. I knew that its preparation method had undergone changes. At the beginning, the production method was difficult, and the production was also rare. Later scholars worked tirelessly to improve the process, and the yield began to increase.
As for the application, it has an outstanding effect on the extraction. It can make various substances separate and orderly, and is indispensable in mineral refining, drug refining and other industries.
Today, our generation should still be diligent and continue to explore. It is hoped that its performance will make another breakthrough; its application will expand new domains. With unremitting efforts, this thing will bloom more brightly in the road of industry and promote the progress and development of the industry.
I began to investigate its origin, and I studied ancient books in detail. I knew that its preparation method had undergone changes. At the beginning, the production method was difficult, and the production was also rare. Later scholars worked tirelessly to improve the process, and the yield began to increase.
As for the application, it has an outstanding effect on the extraction. It can make various substances separate and orderly, and is indispensable in mineral refining, drug refining and other industries.
Today, our generation should still be diligent and continue to explore. It is hoped that its performance will make another breakthrough; its application will expand new domains. With unremitting efforts, this thing will bloom more brightly in the road of industry and promote the progress and development of the industry.
Toxicity Research
The chemical industry is related to people's livelihood, but the investigation of poisons in it cannot be ignored. Today there is Trihexylphosphine Oxide, and I will study its toxicity in detail.
Observe its physical properties, identify its reactions, and test its effects on living beings in various experiments. Try it with insects, plants, and trees, and observe the changes in its shape and habits. Observe the path of its entry into the body, either by breathing, or through the skin. Examine its transformation in the body, whether it accumulates in the viscera, messing with its qi and blood.
After months of research, I know that the toxicity of this substance is not light, and it can be caused by touching or smelling it. Those who are light are tired and tired, and those who are heavy are visceral damage. It is because when it is produced and used, it must be cautious to prevent it from escaping and preventing it from harming living beings. Later research can clarify its detoxification method and ensure everyone's well-being.
Observe its physical properties, identify its reactions, and test its effects on living beings in various experiments. Try it with insects, plants, and trees, and observe the changes in its shape and habits. Observe the path of its entry into the body, either by breathing, or through the skin. Examine its transformation in the body, whether it accumulates in the viscera, messing with its qi and blood.
After months of research, I know that the toxicity of this substance is not light, and it can be caused by touching or smelling it. Those who are light are tired and tired, and those who are heavy are visceral damage. It is because when it is produced and used, it must be cautious to prevent it from escaping and preventing it from harming living beings. Later research can clarify its detoxification method and ensure everyone's well-being.
Future Prospects
Trihexylphosphine Oxide is also a chemical product. Today, I have a promising future for its future prospects. This material property is unique, or it can be used for the catalysis of new chemical reactions and new ways of synthesis. And it can improve the field of separation, or it can expand the color, helping us to get more efficient products. In the future, researchers may be able to further study the performance of its products, refine and improve, and make its effectiveness more in the past. Or combine with other things to derive new materials with excellent performance. When the technology is mature, Trihexylphosphine Oxide will be able to develop extraordinary value in many aspects such as engineering, life, scientific research and exploration, and add a bright new light to the field of chemistry.
Where to Buy Trihexylphosphine Oxide in China?
As a trusted Trihexylphosphine Oxide manufacturer, we deliver:
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What are the main uses of trihexylphosphine oxide?
Triethanolamine oxide is a widely used compound that has shown its important value in many fields.
In the field of daily chemical industry, it is often found in various detergents and cosmetics. In detergents, triethanolamine oxide has excellent thickening effect, which can effectively adjust the viscosity of the product, making the detergent easier to use and apply. At the same time, it also has excellent foaming performance, which can help produce rich and stable foam and enhance the cleaning effect. In cosmetics, it has excellent emulsifying properties, which can evenly mix the oil phase and the water phase, making the texture of lotions, creams and other products more delicate and stable, and helping to improve the moisturizing and moisturizing ability of the product to the skin, making the skin feel more comfortable.
In the textile printing and dyeing industry, triethanolamine oxide also plays a key role. First, it can be used as a softener to give the fabric a soft and smooth feel and improve the wearing comfort of the fabric. Second, as an antistatic agent, it can effectively reduce the accumulation of static electricity on the fabric surface, reduce the adsorption of dust and entanglement caused by static electricity, and make the fabric easier to take care of.
In the field of metal processing, triethanolamine oxide also has important uses. It is often added to metal cutting fluids and grinding fluids. On the one hand, it can play a lubricating role, reduce the friction between the tool and the workpiece, improve the machining accuracy, and prolong the service life of the tool. On the other hand, it also has certain anti-rust properties, which can prevent metal workpieces from rusting during processing and storage, and ensure the quality of metal products.
In summary, triethanolamine oxides have many excellent properties such as thickening, foaming, emulsification, softness, antistatic, lubrication, and rust prevention. Therefore, they are indispensable in many industries such as daily chemical, textile printing and dyeing, and metal processing. They play an important role in promoting the development of various industries.
What are the physical properties of trihexylphosphine oxide?
Triethanolamine oxide is an important compound. Its physical properties are quite unique.
Looking at its appearance, under room temperature and pressure, it mostly appears as a colorless to light yellow transparent liquid with uniform texture and fluidity, just like clear water, but slightly different. This appearance feature makes it easy to identify and operate in many industrial and daily application scenarios.
When it comes to odor, triethanolamine oxide usually emits a weak and special smell, which is not pungent or unpleasant, but relatively mild and does not cause strong olfactory discomfort. This more pleasant odor property has certain advantages in some products with high odor requirements.
Solubility is also one of its important physical properties. It is highly soluble in water, just as salt is quickly and completely integrated into water, and can be mutually soluble with water in any ratio to form a uniform and stable solution. At the same time, it also has good solubility to organic solvents such as alcohols and acetone, which makes it useful in the formulation of different solvent systems. It can be used as an excellent co-solvent to enhance the compatibility between different substances.
In addition to its density, compared with water, the density of triethanolamine oxide is slightly larger, which makes it when mixed with water, it will be distributed in the system in a certain proportion, affecting the overall density and fluidity of the mixture. In the actual production and application process, it is necessary to consider the influence of this factor on the process operation.
In addition, the boiling point of triethanolamine oxide is relatively high, indicating that it has good thermal stability, is not volatile at higher temperatures, and can maintain its own chemical and physical properties within a certain temperature range. This provides the possibility for its application in high-temperature environments, such as in some industrial production processes that require heat treatment.
Is the chemical property of trihexylphosphine oxide stable?
The chemical properties of triethanolamine oxide are quite stable. This substance contains elements such as nitrogen and oxygen, and its structure contains groups of alcohol hydroxyl groups and amine oxides, so it has unique properties.
In terms of its stability, under common mild conditions, triethanolamine oxides are not prone to spontaneous violent chemical reactions. From a structural perspective, alcohol hydroxyl groups can form hydrogen bonds, which can enhance the interaction between molecules and help its stability. In the amine oxide part, the positive charge on the nitrogen atom interacts with the negative charge on the oxygen atom, which also helps to maintain the stable structure of the molecule.
Furthermore, from the perspective of reactivity, due to the relative stability of its structure, triethanolamine oxides do not easily react with common gases such as oxygen and carbon dioxide in the air in general environments, and can be stored at room temperature and pressure for a certain period of time without significant deterioration. However, it should be noted that in case of extreme chemical environments such as strong acids and strong bases, its stability may be affected. Strong acids can react with amine oxides partially by protonation, while strong bases may react with alcohol hydroxyl groups, thereby destroying their original stable structure and causing changes in chemical properties.
However, under normal chemical operation and storage conditions, triethanolamine oxide can maintain relative chemical stability, and can be used stably in many fields such as surfactants, textile additives, etc., to exert its solubilization, emulsification, and other effects. Its stability ensures the reliability and durability of product performance.
What are the precautions for the storage and transportation of trihexylphosphine oxide?
Triethanolamine needs to pay attention to many matters during storage and transportation.
For storage, first, it should be selected in a cool and ventilated warehouse. This is because triethanolamine is easy to decompose when heated. If the storage environment temperature is too high, or it deteriorates, it will affect the quality. Second, keep away from fire and heat sources. Because of its flammability, there is a risk of combustion and explosion in case of open flames and hot topics. Third, it should be stored separately from oxidants and acids, and mixed storage should not be avoided. Triethanolamine is alkaline, and contact with acids will cause chemical reactions, or cause danger; mixed with oxidants, it may also cause accidents due to oxidation reactions. Fourth, the warehouse should be equipped with suitable materials to contain leaks. In case of leakage during storage, it can be properly handled in time to avoid polluting the environment and causing other hazards.
As for transportation, first of all, the transportation vehicle needs to ensure that the vehicle is in good condition and has corresponding safety facilities. Such as fire extinguishers and other fire equipment to deal with possible fire accidents. Secondly, the transportation process should be protected from exposure to the sun, rain and high temperature. Because triethanolamine is more sensitive to environmental factors such as temperature and humidity, extreme weather may cause adverse effects on it. Furthermore, it should be handled lightly to prevent damage to packaging and containers. If the packaging is damaged, the leakage of triethanolamine will not only cause material loss, but also endanger the safety of transportation personnel and pollute the surrounding environment. Finally, during transportation, you should follow the specified route and do not stop in densely populated areas and places with open flames. In this way, the safety of triethanolamine during storage and transportation can be guaranteed and accidents can be avoided.
What are the preparation methods of trihexylphosphine oxide?
First, ammonia oxyethane is used as a raw material. When the two meet, triethanolamine can be produced according to the specific degree of resistance, force and catalysis. The reverse is that the nitrogen atom in the ammonia molecule is rich in molecules, and the carbon in the ethylene oxychloride has the nature of a nucleus, which is easy to produce, and is gradually added. The reverse is that the raw material is easy to produce, and the reverse way is clear. However, there are also shortcomings. The reverse parts need to be controlled, whether the side effects are easy to produce, and the cause is easy to protect.
Second, chloroethanol and ammonia are reversed. When chloroethanol encounters ammonia, the chlorine atom is attacked by the nucleus of nitrogen in ammonia, and the chlorine atom is removed, replacing the antidote and forming triethanolamine. In this way, the raw material chloroethanol is easy to burn, and the antidote principle is not difficult. However, chloroethanol is toxic, and special attention should be paid to safety during operation, and the by-products generated by the antidote need to be properly treated to avoid contamination of the environment.
Third, use ethanolamine as the starting material. Ethanolamine can be reversed in one step to obtain triethanolamine. Or in the presence of a specific catalyst, ethanolamine can be reversed, so that the ethyl group of ethanolamine can be increased, and the synthesis of triethanolamine can be formed. The advantage of this approach is that the antidote or high antidote can be obtained. However, the cost of ethanolamine may be high, resulting in an increase in the cost of production.
Where this method has advantages and disadvantages, each has its own advantages and disadvantages. To make triethanolamine, it depends on the availability of raw materials, cost considerations, and quality requirements of the product.
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