[1,1'-Biphenyl]-3-Sulfonic Acid, 2'-(Dicyclohexylphosphino)-2,6-Dimethoxy-, Sodium Salt

Lingxian Chemical

Specifications

HS Code	829953
Chemical Name	[1,1'-Biphenyl]-3-sulfonic acid, 2'-(dicyclohexylphosphino)-2,6-dimethoxy-, sodium salt
Molecular Formula	C28H36NaO5PS
Molecular Weight	548.58 g/mol
Appearance	Typically a solid (description may vary based on purity and preparation)
Solubility	Solubility characteristics would depend on the solvent, likely has some solubility in polar organic solvents
Purity	Varies by manufacturer and production batch, can be high - purity for certain applications
Melting Point	Melting point data would be needed from experimental or reliable literature sources
Storage Conditions	Should be stored in a cool, dry place, protected from moisture and light
Sensitivity	May be sensitive to air, moisture, or certain chemical environments

Packing & Storage

Packing	100g of [1,1'-Biphenyl]-3 - Sulfonic Acid... Sodium Salt in sealed chemical - grade packaging.
Storage	Store [1,1'-Biphenyl]-3 - Sulfonic Acid, 2'-(Dicyclohexylphosphino)-2,6 - Dimethoxy-, Sodium Salt in a cool, dry place away from heat and sources of ignition. Keep it in a tightly - sealed container to prevent moisture absorption. Avoid exposure to incompatible substances such as strong acids or oxidizing agents to maintain its chemical stability.
Shipping	The chemical [1,1'-Biphenyl]-3-Sulfonic Acid, 2'-(Dicyclohexylphosphino)-2,6-Dimethoxy-, Sodium Salt is likely shipped in containers suitable for chemical transport, ensuring safety, stability, and compliance with shipping regulations for such substances.

Free Quote

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

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

[1,1'-Biphenyl]-3-Sulfonic Acid, 2'-(Dicyclohexylphosphino)-2,6-Dimethoxy-, Sodium Salt

General Information

Historical Development

The creation of [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2,6-dimethoxyl-, sodium salt, although the beginning has not been detailed in ancient times, but the evolution of chemical industry has gradually emerged. At the beginning, the researchers explored at the end of the micro, analyzed the physical properties, studied the reaction, and accumulated bit by bit. Over the years, the understanding of its structure and performance has deepened. In the past, the experiments were difficult, and there were repeated setbacks, but they were unswerving. When there is a shortage of raw materials or a technical bottleneck, they all strive to overcome it. Up to now, the process has advanced, and this product has emerged in various fields of chemical industry, and its use has gradually expanded. It is the crystallization of the efforts of researchers of previous dynasties. The road of exploration in the past has finally become the foundation of today's brilliance.

Product Overview

Today, there is a product named [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphine) -2, 6-dimethoxyl-, sodium salt. This is a key substance in chemical research. Its structure is unique. On the biphenyl skeleton, the sulfonic acid group, phosphine group and methoxy group are cleverly connected, and the sodium salt form also has characteristics. In the field of organic synthesis, it is often used as a catalyst ligand. With its electronic effect and steric hindrance, it can precisely regulate the reaction process and improve the reaction efficiency and selectivity. In catalytic coupling reactions, it can promote the effective binding of substrates, reduce the activation energy of the reaction, and guide the reaction to the desired product. Its importance in chemical research is self-evident, providing strong support for exploring new reaction pathways and developing efficient synthesis methods.

Physical & Chemical Properties

[1,1 '-Biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2, 6-dimethoxy -, sodium salt This compound has unique physical and chemical properties. Its physical properties and appearance often take a specific form, or it is a powder or a crystal, and the color varies according to the preparation purity. The solubility is different from that of common solvents, and it varies in dissolution in water or organic solvents, which is related to its application scenarios.
When it comes to chemical properties, the stability of the sodium salt is remarkable under specific conditions, and it participates in many chemical reactions. Because it contains phosphine groups and sulfonic acid groups, it can be used as a ligand to participate in catalytic reactions. With its electronic effect and steric resistance, it affects the reaction process and product structure. The presence of dimethoxy groups also regulates its chemical activity, and is widely used in the field of organic synthesis, providing many possibilities for chemical research and industrial production. It is indeed a compound worthy of further investigation.

Technical Specifications & Labeling

The technical specifications and identification (product parameters) of [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2,6-dimethoxyl-, sodium salts are related to the technical specifications of this product, and specific guidelines must be strictly followed. Its chemical structure is established, and the proportions of each component are accurate to ensure stable properties. In terms of identification, key product parameters such as chemical name, molecular formula, and molecular weight should be clearly marked for clear identification. The preparation process must control conditions to ensure the same quality. In this way, high-quality products can be obtained, which can play their due role in related fields and help advance various research and applications.

Preparation Method

Now I want to make [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2,6-dimethoxyl-, sodium salt products. The method of preparation is related to the raw materials and production process, reaction steps and catalytic mechanism.
First select the appropriate raw materials, carefully select them, so as to make them pure. Combine them with suitable processes, and proceed the reaction steps in sequence, step by step with caution. During the process, the catalytic mechanism is essential, choose a good catalyst and adjust its conditions to promote the reaction.
In this way, after careful preparation, strict steps, and clever control of catalysis, it is expected to produce this product, and achieve what you want, and become this chemical industry.

Chemical Reactions & Modifications

The wonders of chemical industry are related to the change of substances. Today there are [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2,6-dimethoxyl-, sodium salts. Its chemical response can be explored.
The chemical response is often related to the structure and properties of molecules. The structure of this sodium salt is unique, among which the group of biphenyl, the group of sulfonic acid, and the phosphine group and methoxy group interact, and wonderful changes must occur. Its reaction is either related to the migration of electrons, or related to the steric barrier.
And the way of its modification is also the key. It can be changed by adjusting the temperature and pressure of the reaction, or adding auxiliary agents. Make this sodium salt in the field of catalysis, or the system of materials, can show unique effects, enhance its use and increase its value. Chemical changes, endless wonders, can be seen in this thing.

Synonyms & Product Names

[1,1 '-Biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2, 6-dimethoxy -, sodium salt, its synonymous name and the name of the commodity are very important. In the field of my chemical research, it is necessary to explore its various terms. The name of the cause can help researchers communicate with each other and communicate without hindrance. The name of the commodity is also related to market circulation and application. This [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2, 6-dimethoxyl-, sodium salt, or other synonymous names, are all known in the academic community. Researchers in the literature exploration, experimental operation, clear its synonymous name and the name of the commodity, in order to be accurate, not confused.

Safety & Operational Standards

[1,1 '-Biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2, 6-dimethoxy -, sodium salt, this chemical is related to safety and operating practices, and detailed guidelines are required.
Store this product in a cool, dry and well-ventilated place. Keep away from fire and heat sources to prevent accidents. It should be placed separately from oxidants and food chemicals, and must not be mixed to avoid the risk of chemical reactions. The storage area should be equipped with suitable materials to contain leaks for emergencies.
As for operation, operators must undergo special training and strictly follow the operating procedures. When operating, it is advisable to wear a self-priming filter dust mask, wear chemical safety glasses, wear anti-poison infiltration work clothes, and wear rubber gloves to ensure your own safety. Avoid generating dust and avoid contact with oxidants. When handling, it should be handled lightly to prevent damage to packaging and containers.
In the unfortunate event of a leak, personnel in the contaminated area of the leak should be quickly evacuated to a safe area and isolated to strictly restrict access. Emergency responders must wear self-contained positive pressure breathing apparatus and anti-toxic clothing. Do not let the leak come into contact with combustible substances, sweep it up carefully, put it in a bag and transfer it to a safe place. If there is a large amount of leakage, a dike or pit should be built to contain it, and it should be transferred to a tanker or special collector by pump, recycled or transported to a waste treatment site for disposal.
The safety and operating standards of this chemical substance should not be ignored, and it is related to human life and the environment.

Application Area

[1,1 '-Biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2, 6-dimethoxy -, sodium salt, has its use in various fields. In the science of chemical education, it can be a catalytic agent, promoting all kinds of reactions smoothly, increasing its rate, increasing its yield, so that the work of chemical education can be multiplied with half the effort. In the way of medicine, or assisting in the synthesis of active ingredients, finding a way to treat diseases. In the field of materials, or can adjust the properties of materials, so that they have specific properties, such as better electrical conductivity and optical properties. All this depends on its unique structure and characteristics, which can interact with other substances to achieve different purposes, and in the context of various uses, it can show its extraordinary effect.

Research & Development

In recent years, I have been studying [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphine) -2, 6-dimethoxyl-, sodium salt. At first, I did not know its nature, tried many times to no avail, and I was worried. However, I did not give up, I devoted myself to studying, consulting classics, and visiting wise men.
Over time, I gradually understand. This material is unique and has a miraculous effect in many reactions. In the field of catalysis, it can promote the reaction speed and increase the yield. I have repeated many tests, recorded data in detail, and repeatedly deduced, in order to seek accuracy.
Looking at it now, this material has a broad prospect. With time, in-depth research, we will be able to shine in the chemical and pharmaceutical industries, promote the progress of the industry, and benefit the world. I should be unremitting, looking forward to the road of research and development, and make new achievements to achieve greater success.

Toxicity Research

Study on the toxicity of [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2,6-dimethoxyl-, sodium salts
Fu [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphinyl) -2,6-dimethoxyl-, sodium salts, the object of chemical research is also. It is very important for toxicity research.
In today's research, the first thing to observe is its physicochemical properties, its structural components, and its reaction state in different media. Take various organisms as a test to observe the physiological changes after contact with this substance. Or observe the state of cells to observe their proliferation and apoptosis; or look at animal signs, such as behavior, diet, and organs.
Toxicity research is related to the health of living beings and environmental safety. If this substance is very toxic, when it is produced and used, strict regulations should be set up to prevent it from being scattered and harming organisms and the environment. On the contrary, if the toxicity is weak, it can be used more widely. It is based on toxicity research, which is mentioned before the application of chemical products, and cannot be studied carefully.

Future Prospects

Today there is a substance named [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphine) -2,6-dimethoxyl-, sodium salt. Looking at this substance, although it is now in the present, our eyes should look to the future development.
This substance may have extraordinary potential in the chemical industry, and over time, it may emerge in the synthesis of materials, contributing to the research and development of new materials. Or in catalytic reactions, it shows unique efficiency and improves the rate and yield of the reaction.
Our scientific researchers should study it diligently, explore its unknown properties, and find ways to use it. We hope to make unremitting efforts to make this material shine in the future, for the well-being of the world, and to contribute to the progress of science and technology, so as to meet our grand expectations for the future.

Frequently Asked Questions

What is the chemical structure of [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2,6-dimethoxyl-, sodium salt

Alas! In order to know the chemical properties of mercury, it is necessary to analyze its constituent elements.
For "[1,1 '-naphthalene] -3-sulfonic acid", this is one of the compounds. The molecule contains the skeleton of naphthalene, and is connected with a sulfonic acid group at 3 positions. The sulfonic acid group is a functional group with properties. The formation of -SO 🥰 H allows the sulfonic compound to have a certain water solubility, which can develop its characteristics in the reaction and engineering.
"2 '- (diethylamino) -2,6-dimethyloxy" In this part, diethylamino is a substituent with a large space barrier, which is formed by the phase of diethyl and nitrogen atoms. It can affect the molecular sub-cloud and the appearance of the molecule. And 2,6-dimethyloxy, that is, benzene, The 2,6 position is connected with methoxy, and the methoxy group is supplied to the sub-group, which can affect the molecular properties and anti-activity of the molecule.
The transformation of mercury is the integration of the above-mentioned groups into each other and interact with each other. The mutual influence of the sub-effect and the space effect of each group determines the physical and chemical properties of mercury. For example, the co-effect of the base layer, or the qualitative and optical properties of the molecules can be influenced; the interaction and reaction of the space barrier or the molecules can be influenced.
In other words, the transformation of mercury is exquisite, and each base layer is similar to each other. It is of great significance in the research and cooperation of chemistry.

What are the physical properties of [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2,6-dimethoxyl-, sodium salt

"Tiangong Kaiwu" is a scientific and technological masterpiece written by Song Yingxing in the Ming Dynasty, in which the physical properties of many substances are described. Regarding [1,1 '-binaphthalene] -3-sulfonic acid, 2' - (dicycloethylamino) -2,6-diethoxy -, and cobalt alum, although not directly mentioned in "Tiangong Kaiwu", its physical properties can be explored from the ancient cognition of similar substances and related processes.
In ancient times, although there is no exact correspondence between sulfonic acid substances, some of their properties can be inferred from the records of acidic and soluble related substances. [ 1,1 '-Binaphthalene] -3-sulfonic acid may have a certain acidity, because the sulfonic acid group often imparts acidic characteristics to the substance. Although there was no accurate measurement method in ancient times, the ancients may have perceived similar properties from its reaction with alkali substances, such as contact with plant ash (containing alkaline substances such as potassium carbonate) or the generation of bubbles. In terms of solubility, it may be able to dissolve to a certain extent in water. Although the ancients did not have a precise concept of solubility, they could understand the dispersion and dissolution of substances in common solvents such as water.
2' - (dicycloethylamino) -2,6-diethoxy -, from a structural point of view, because it contains multiple alkyl groups, amino groups, ethoxy groups, or has a certain lipid solubility. Although there is no modern knowledge of chemical structure and solubility in ancient times, from the cognition of similar hydrocarbon-containing chain-length substances, such as oil and lipid substances, it can be known that they may have better solubility in organic solvents such as oils.
Cobalt alum, alum substances have been recorded in ancient times. Cobalt alum may have color characteristics. Common alums such as bile alum are blue, and cobalt alum or due to cobalt elements exhibit a specific color. In terms of hardness, alum substances are relatively brittle in multi-texture, and their hardness may not be high. In terms of density, compared with common wood and other lighter substances, alum density may be larger. The ancients may have sensed the difference in density from simple ways such as feel and float. At the same time, it may change under heating and other conditions, such as some alum heating will lose water and change color, and cobalt alum may also have similar thermal stability-related characteristics. Although the ancients did not have accurate thermal analysis methods, such changes can be observed from practices such as fire calcination.

[1,1 '-Biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2,6-dimethoxyl-, what are the application fields of sodium salts

The application field of mercury paste
Mercury paste is made from [1,1 '-binaphthalene] -3-sulfonic acid and 2' - (dicyclohexylamino) -2,6-diethoxybenzene. Its application field is quite extensive, as detailed below:
First, in the field of metallurgy, mercury paste plays an important role. During the extraction of precious metals such as gold and silver, mercury paste can form amalgam with gold and silver in ores. This amalgam is easy to separate, and after subsequent processing, high-purity gold and silver can be obtained. This process is like panning gold in sand, and mercury paste is the key medium that can precipitate gold from sand. In the past, when mining was not yet developed, many small gold mines used this method to extract gold and silver to obtain precious metals.
Second, in the field of chemical synthesis, mercury paste can be used as a unique catalyst. Due to its special chemical structure, it can promote the smooth progress of specific chemical reactions, improve reaction efficiency and product purity. In the synthesis of some fine chemicals, the use of mercury paste can make the reaction conditions milder, thereby reducing production costs and improving product quality. For example, in the synthesis of some pharmaceutical intermediates, mercury paste can precisely guide the reaction in the desired direction, just like the helmsman of chemical reactions, controlling the course of the reaction.
Third, in the field of materials science, mercury paste is also used. It can be used to prepare materials with special properties, such as some materials with special electrical and optical properties. By adding an appropriate amount of mercury paste during the material preparation process, the microstructure of the material can be changed, thereby giving the material unique properties. These special materials have important applications in electronic devices, optical instruments, etc., providing strong support for the development of modern science and technology.
To sum up, mercury paste has important applications in metallurgy, chemical synthesis, and materials science, and plays an indispensable role in the development of many industries.

What is the synthesis method of [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2,6-dimethoxyl-, sodium salt?

In "Tiangong Kaiwu", the synthesis method of [1,1 '-binaphthalene] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2, 6-dimethoxybenzimidazole copper salt is described in classical Chinese, or as follows:
To prepare [1,1 '-binaphthalene] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2, 6-dimethoxybenzimidazole copper salt, first take an appropriate amount of 1,1 '-binaphthalene, and introduce the sulfonic acid group through a delicate method to obtain [1,1' -binaphthalene] -3-sulfonic acid.
As for the preparation of 2 '- (dicyclohexylphosphinyl) -2,6-dimethoxybenzimidazole, it is necessary to start with dicyclohexyl and introduce phosphinyl and 2,6-dimethoxybenzimidazole structures through multiple transformations. This process requires attention to the reaction conditions, the ratio of heat to material, and it is difficult to expect a slight difference.
Then, the prepared [1,1 '-binaphthalene] -3-sulfonic acid and 2' - (dicyclohexylphosphino) -2,6-dimethoxybenzimidazole are mixed in a specific container according to an appropriate ratio, and an appropriate amount of medium is added, or it is water or other suitable solvents.
Then, control the temperature and duration of the reaction, or apply moderate stirring and shaking to fully blend the two. This process is like a wonderful way to control the universe. It is necessary to carefully observe the signs of the reaction. When the reaction reaches an ideal level, after separation and purification, the impurities can be removed to obtain pure [1,1 '-binaphthalene] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2,6-dimethoxybenzimidazole copper salt. The entire synthesis process requires craftsmen to uphold prudence and refinement, and to be familiar with all kinds of reactions. Only then can they achieve their wishes to obtain this delicate copper salt.

What is the market prospect of [1,1 '-biphenyl] -3-sulfonic acid, 2' - (dicyclohexylphosphino) -2,6-dimethoxyl-, sodium salt?

Market Prospects of Mercury Paste
Mercury paste, its main components are [1,1 '-binaphthalene] -3-sulfonic acid, 2' - (dicycloethylamino) -2,6-dimethoxy, which is a key element of chemistry. Looking at its market conditions, it is related to many factors, and now we will analyze them.
Let's discuss the end of the raw materials first. The supply of raw materials such as dicycloethylamino is related to the dynamics of the upstream chemical industry. If the upstream production is smooth and the raw materials are sufficient, the output of mercury paste is expected to be stable. However, if the upstream encounters sudden changes, such as equipment failure, policy regulation, etc., the supply of raw materials may be tight, resulting in limited production of mercury paste, and its price may rise.
Look at the demand side again. Mercury paste is widely used in the field of chemical synthesis, such as the preparation of specific drugs and fine chemicals. If the research and development of the pharmaceutical industry is going well, and new drugs need mercury paste as raw materials, the demand will increase. Or the expansion of electronic chemicals and other industries, the demand for mercury paste may also rise. On the contrary, if the development of related industries is sluggish, the demand may shrink.
Repeat the competitive situation. For mercury paste producers in the market, the competitive situation also affects their market conditions. If there are many new factories, the production capacity will surge, and the market may be in a state of oversupply, and the price may decline. And if the industry consolidates, the strong will become stronger, the market share will be concentrated, and the large factories may be able to control the price.
Policies and regulations are also a major reason. Environmental protection regulations are becoming increasingly stringent, and the production process of mercury paste must be regulated if it involves pollution. The rise in compliance costs may cause some small factories to withdraw, affecting the market pattern. If policies encourage the development of related chemical industries, or bring opportunities to the mercury paste market.
To sum up, there are many variables in the mercury paste market. Raw material supply, market demand, competition situation and policies and regulations are all key. Industry players should be aware of the situation and understand the changes in the market in order to be able to play the tide in the business sea and seek development.