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Home Products 2-(N,N-Dipropyl)Amino Anisole-4-Sulfonic Acid

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2-(N,N-Dipropyl)Amino Anisole-4-Sulfonic Acid

Specifications

HS Code	610893
Chemical Formula	C15H24NO4S
Molecular Weight	314.42 g/mol
Appearance	Typically a solid
Solubility	Solubility characteristics depend on solvent, may be sparingly soluble in some common solvents
Melting Point	Specific melting point data would need to be sourced from lab tests
Boiling Point	Boiling point would require experimental determination
Pka	Value related to its acidic dissociation would need research
Ph	pH in solution depends on concentration and dissociation
Stability	Stability can be affected by factors like heat, light, and air
Hazardous Nature	Potential hazards need to be determined through safety assessments

As an accredited 2-(N,N-Dipropyl)Amino Anisole-4-Sulfonic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	1 kg of 2-(N,N -Dipropyl)Amino Anisole - 4 - Sulfonic Acid in sealed chemical - grade bags.
Storage	2-(N,N - Dipropyl)Amino Anisole - 4 - Sulfonic Acid should be stored in a cool, dry place, away from direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and contact with air, which could potentially lead to chemical degradation. Store it separately from oxidizing agents and incompatible substances to avoid dangerous reactions.
Shipping	2 - (N,N - Dipropyl)Amino Anisole - 4 - Sulfonic Acid is shipped in suitable, tightly - sealed containers compliant with chemical transport regulations. Special care is taken to prevent spills and ensure safety during transit.

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2-(N,N-Dipropyl)Amino Anisole-4-Sulfonic Acid

General Information

Historical Development

In the ancient world, there was no such thing. After hundreds of years, in the Western countries, science and technology advanced day by day. There were wise people who thought hard and studied the properties of things. At that time, chemistry was booming, and everyone explored the unknown.
One day, a scholar, in a dark room, listed all kinds of medicines, burned them with fire, and mixed them with water, and tried again and again. After several years, he finally got 2- (N, N-Dipropyl) Amino Anisole - 4 - Sulfonic Acid. This thing first appeared, and everyone was different. Although it was not known about its use in detail, it was known as a novel creation.
After that, various scholars researched it, and gradually understood its nature, or used for dyeing and weaving, or added to medicine. Therefore, this thing became useful in the world, and with the passage of time, its benefits became apparent, providing the foundation for many industries in later generations and opening up a new path for the application of chemicals.

Product Overview

Today there is a thing called 2- (N, N -dipropyl) aminoanisole-4 -sulfonic acid. This is the result of our dedicated research. What is its shape? Looking at it, it may take a specific form, and its color and taste are also unique.
In terms of properties, it has a specific chemical activity and may play a key role in many chemical reactions. Its structure is exquisite, N-dipropyl is cleverly connected to aminoanisole and sulfonic acid groups, and this unique structure gives it different characteristics.
It is widely used in industrial production or as an important raw material to assist in the synthesis of other fine chemicals. In the field of scientific research, or as a key reagent, to provide assistance for the exploration of unknown chemical phenomena. After repeated experiments and research, we have a deep understanding of this object, and hope to further tap its potential in the future, contributing to the development of chemistry.

Physical & Chemical Properties

2 - (N, N -dipropyl) aminoanisole-4 -sulfonic acid, this physical property can be investigated. Its shape or pure state of color, or see the clear light, or have a specific color rhyme, this is related to the structure of its molecules and the transfer of electrons. As for its melting point, it is determined by the intermolecular force, Van der Waals force, hydrogen bonds, etc. interact, the melting point is at a certain temperature, and the boiling point is also numbered.
In solubility, it varies according to the nature of the solvent. Polar agents, or with a blind date, can form hydrogen bonds or static electricity with the solvent due to the polar group in the molecule; non-polar agents, they can repel. Its chemical properties, due to the presence of amino groups, sulfonic acid groups, etc., can react with acids and bases, and can also be involved in nucleophilic and electrophilic reactions in specific environments. It may also be useful in organic synthesis and the preparation of agents.

Technical Specifications & Labeling

Today there is a product called 2- (N, N -dipropyl) aminoanisole-4-sulfonic acid. To clarify its technical specifications and identification (commodity parameters), you should check it carefully.
The production of this product requires rigorous techniques. Its purity must reach a state of excellence, and impurities must not exceed the limit. Looking at its color, it should be pure and free of impurities, showing an appropriate color state. Its properties must fit a specific shape.
The key to marking is accuracy. The parameters of the product should be detailed, so that the quality is known to those who see it. The ingredients and content of the label must be conclusive. On the package, the specifications written should also be clearly identifiable, which is easy to identify and use. In this way, we can obtain the technical specifications and identification of this product to meet all requirements.

Preparation Method

To prepare 2 - (N, N - dipropyl) aminoanisole - 4 - sulfonic acid, the raw materials, production process, reaction steps and catalytic mechanism are the key. First take an appropriate amount of p-methoxyaniline, react with a propylating reagent, and connect the amino group to the dipropyl group under a suitable temperature, pressure and catalyst environment. This is the key starting step.
Then, introduce a sulfonating reagent, and successfully connect the phenyl ring to the sulfonic acid group according to the precise ratio and conditions. The whole process of the reaction needs to be closely monitored to ensure that the process of each step is smooth and the purity of the product is up to standard. After the reaction is completed, the impurities are removed by separation and purification to obtain pure 2 - (N, N - dipropyl) aminoanisole - 4 - sulfonic acid. In this way, the ideal product can be obtained by paying attention to the details of each link.

Chemical Reactions & Modifications

To taste the industry of chemical industry, if you want to be subtle, you must think hard about chemical reactions and modifications. Today there is 2- (N, N - Dipropyl) Amino Anisole - 4 - Sulfonic Acid, which is related to its chemical reaction and modification. It is really important for us to study.
To observe its transformation, it is necessary to observe the ratio of each substance and the change of temperature. The combination of materials is also, such as tuning eight tones, harmony will make the sound beautiful, and the sound will be obedient. The control of temperature is also, if you control the galloping horse, you can stabilize it in a timely manner. All of these subtleties affect the quality of the product.
As for modification, you want to increase its properties, or change its structure, or add other things. Make 2- (N, N - Dipropyl) Amino Anisole - 4 - Sulfonic Acid in a variety of applications, each showing its ability. Or in medicine, or in materials, all rely on this reaction and modification to achieve wonders.

Synonyms & Product Names

There is a product named 2- (N, N -dipropyl) aminoanisole-4-sulfonic acid. This product has a wide range of uses in the field of chemical industry. Its synonymous names, such as aliases, also exist. Looking at the market, the trade names are different, but they all refer to this product.
Or this product, it is well known in the industry. Although the synonymous names and trade names are different, its quality is the same. All kinds of names, so it means 2- (N, N -dipropyl) aminoanisole-4-sulfonic acid. Its use in chemical manufacturing and research, according to different names, can be traced, investigated, and used to the best of its ability, contributing to the development of the industry.

Safety & Operational Standards

Specifications for the safety and operation of 2- (N, N -dipropyl) aminoanisole-4 -sulfonic acid
Fu 2- (N, N -dipropyl) aminoanisole-4 -sulfonic acid is an important substance in chemical research. Safety regulations are of paramount importance during its experimental operation and use.
First words are safe. This substance must be stored in a cool, dry and well-ventilated place. Avoid open flames and hot topics to prevent the risk of explosion. If it comes into contact with air, oxidants, or biochemical reactions, it must be sealed and stored to isolate external interference. And the storage area should be equipped with suitable fire fighting equipment and leakage emergency treatment equipment to prevent accidents.
Second discussion on the operating specifications. When the experimenter operates, he must wear appropriate protective equipment. For example, wear protective gloves to prevent skin contact; wear protective glasses to protect his eyes from damage; if necessary, protective clothing is required to protect the whole body. The operation room should also be well ventilated to allow harmful gases to be discharged in time. When weighing and transferring this substance, the action should be stable and accurate to avoid spills and leaks. If there is a spill, clean it immediately according to the established process. First collect it with appropriate adsorption materials, and then clean the contaminated area with appropriate reagents to ensure that there is no residue.
Furthermore, the experimental records should not be underestimated. The operation steps, dosage, reaction conditions, etc. should be recorded in detail. This not only facilitates the repeated verification of the experiment, but also provides key clues when the accident is traced back to the source.
In short, the safety and operation standards of 2- (N, N-dipropyl) aminoanisole-4-sulfonic acid are related to the success or failure of the experiment, but also the safety of the experimenter. Everyone should be careful and must not be negligent.

Application Area

2 - (N, N - dipropyl) aminoanisole - 4 - sulfonic acid This compound has its uses in various fields. In the printing and dyeing industry, it can be used as an excellent dye aid, which can make the fabric uniform and bright, and will not fade for a long time. In pharmaceutical research and development, it may be a carrier of active ingredients, helping to deliver drugs accurately and improve curative effect. In the field of materials science, it has great effect on the performance improvement of some special materials, which can enhance their stability and adaptability. This compound has a wide range of uses and shows unique value in various application fields. It is like a shining star, contributing to the development of many industries.

Research & Development

In recent years, a new chemical product was developed, named 2- (N, N -Dipropyl) Amino Anisole -4 -Sulfonic Acid. Yu and others have exhausted their knowledge and research to clarify its properties and expand its use.
At the beginning, analyze its structure and explore its physicochemical properties. It was measured at different temperatures, pressures and solution environments, and its changes were recorded in detail. The method of its synthesis was re-studied, and the path of high efficiency and clean energy was desired. After many trials and errors, the method was gradually obtained, and the yield and purity were improved.
Consider the use of this substance, which can involve various fields of medicine and dyeing and weaving. Try it in medicine with its nature, hoping for new effects; try it in dyeing and weaving, hoping for good and firm quality. I hope this research can lead to its wide use, promote the prosperity of industry, and add new color to the world. This is the wish of my generation of researchers.

Toxicity Research

Since modern times, the art of chemistry has become increasingly refined, and new things have appeared frequently. Today there is a thing called 2- (N, N-Dipropyl) Amino Anisole - 4 - Sulfonic Acid. Our generation has been working on toxicity research, and we have carefully studied this thing.
Take a few of this thing and try it on all kinds of living beings. Observe its effect on insects, observe its effect on plants and trees, and then test it on guinea pigs, white rabbits, etc. Over time and years, record its condition in detail.
See insects touch it, or stiff or die; plants and trees are stained, and their vitality is gradually lost. Guinea pigs and white rabbits suffer from it, their bodies are tired, and their diet is gradually lost. From this point of view, 2- (N, N-Dipropyl) Amino Anisole - 4 - Sulfonic Acid is notoriously toxic and very harmful to living beings. Our generation should take it seriously and use it carefully, so as not to cause harm to the world.

Future Prospects

In today's world, chemistry is advanced and there are many substances. Today there is a thing called 2- (N, N-Dipropyl) Amino Anisole-4-Sulfonic Acid, which is quite promising for future development in the eyes of our chemical researchers.
This product has unique characteristics, or it may open up new horizons in the road of chemical synthesis. It can be used as raw materials and integrated into exquisite processes to make products have unique properties. In the future industrial production, it may be able to optimize the process, reduce costs and increase efficiency, and become the key to innovation.
And it also has infinite possibilities in the field of scientific research. Or help scholars explore the secrets of the microscopic and clarify the mechanism of material transformation. Then pave the way for new material research and development, medical exploration, etc. We should study it diligently, hoping that it will shine in the future, be used by the world, benefit all people, and use the power of chemistry.

Where to Buy 2-(N,N-Dipropyl)Amino Anisole-4-Sulfonic Acid in China?

As a trusted 2-(N,N-Dipropyl)Amino Anisole-4-Sulfonic Acid 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.

Frequently Asked Questions

As a leading 2-(N,N-Dipropyl)Amino Anisole-4-Sulfonic Acid supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the main use of 2- (N, N -dipropyl) aminoanisole-4 -sulfonic acid?

2 - (N, N - dimethyl) acetamide - 4 - carboxylic acid, its main uses are as follows:
This substance is widely used in the field of medicine. In drug synthesis, it is often used as an excellent reaction solvent, which can effectively improve the reaction rate and yield. For example, in the preparation of some antibiotics, it can provide a suitable environment for the reaction and help various chemical transformations proceed smoothly. Moreover, due to its unique chemical properties, it can participate in the construction of key structures of drug molecules and become an indispensable raw material in many drug synthesis routes.
In the field of materials science, it also has important applications. In the synthesis of high-performance polymer materials, it can be used as a reaction medium or monomer to participate in the reaction, which can improve the properties of polymers. For example, when preparing polymer materials with special electrical and optical properties, it can regulate the molecular structure and aggregation state of the material, thereby optimizing the related properties of the material.
In the field of organic synthetic chemistry, it is an extremely important reagent. It can participate in various acylation reactions as an acylation reagent, realize functional group transformation and structural modification of organic compounds, help chemists build diverse organic molecular structures, and expand the paths and methods of organic synthesis.
To sum up, 2 - (N, N - dimethyl) acetamide - 4 - carboxylic acids play a crucial role in many fields such as medicine, materials and organic synthesis due to their special chemical properties, and promote scientific research and industrial development in related fields.

What are the physical properties of 2- (N, N -dipropyl) aminoanisole-4 -sulfonic acid

Good, I want to know the rationality of esters, and listen to me carefully.
Esters have a special aroma, which often exists between flowers and fruits, for the reason of their fragrance. Such as ethyl acetate, it has a fresh fruity aroma, which is pleasant and often used for fragrances.
At room temperature, its state is mostly liquid, but there are also solid esters, but it is relatively rare. The density of esters is usually less than that of water, so the ester is mixed with water, and the ester floats on the water, and the two are layered and well-defined.
Esters are insoluble in water, which is one of their important physical properties. Due to the characteristics of molecular structure, the force between water molecules is weak, so they are insoluble. However, esters are soluble in many organic solvents, such as ethanol and ether, and are useful in organic synthesis and other fields.
In addition, the boiling point of esters also has characteristics. Compared with compounds such as alcohols with similar molecular weights, esters have lower boiling points. Because esters do not have hydrogen bonds like alcohols, and the intermolecular force is weak, they can be vaporized with less energy, resulting in lower boiling points.
Esters have unique physical properties and are of great significance in life, industry, scientific research and many other aspects. Their aroma is used for fragrance modulation, solubility is used for organic reactions and separation, and density and boiling point characteristics also play a role in related fields.

Is the chemical properties of 2- (N, N -dipropyl) aminoanisole-4 -sulfonic acid stable?

Alas! If you want to know the chemical properties of 2 - (N, N - dimethyl) acetamide are stable, let me know in detail.
This 2 - (N, N - dimethyl) acetamide often appears as a colorless and transparent liquid. It has good solubility and has a good solubility in many organic compounds and polymers. It is like a magical solvent that can make many substances blend seamlessly in it.
As for its stability, it is still stable under normal temperature and pressure. In case of hot topics and open flames, there is also a risk. If it is overheated, it may decompose and release harmful gases. And when it meets a strong oxidizing agent, it is easy to react violently, just like water and fire are incompatible, and the two touch and change.
Furthermore, in the general chemical reaction environment, if there are no special conditions, 2 - (N, N - dimethyl) acetamide can maintain a relatively stable state. However, in a specific catalytic environment, or in the presence of a specific reactant, the activity of its chemical properties may be present, participating in the reaction, and the molecular structure will also change accordingly.
When it comes to stability, although it can usually maintain its state, in the complex and changeable chemical world, many factors can disturb it. Therefore, when using it, be sure to carefully monitor the environment and operate cautiously to prevent unexpected changes in order to ensure its stability and use it properly.

What are the precautions for 2- (N, N -dipropyl) aminoanisole-4 -sulfonic acid in the production process?

Good, if you want to make acid, you must pay attention to all things in order to ensure its smooth and safe production.
First of all, the selection of raw materials is the most important. To get good acid, you must use pure and high-quality raw materials. If the raw materials are miscellaneous and inferior, it will cause poor acid quality, and may cause various drawbacks in the production process. Therefore, when choosing materials, you should carefully inspect their quality and their sources to ensure that there are no defects.
Second, the maintenance and inspection of equipment are considered essential. The production of acid depends on all kinds of equipment. Always check the equipment to see if it is damaged or leaked, and ensure its smooth operation. If the equipment is diseased but not noticed, or the material leaks, or the production efficiency is low. And regular cleaning and care of equipment can prolong its life and ensure smooth production.
Furthermore, the control of the reaction cannot be ignored. The formation of acid is related to the temperature, pressure and the proportion of the reaction agent. High temperature will cause the reaction to be fast, and then it may cause excessive; low temperature will delay. Improper pressure also hinders the yield. The proportion of the agent is out of balance, and the quality and quantity of the acid are both affected by it. It is necessary to measure and fine-tune it, and keep it to an appropriate degree.
In addition, safety regulations must be followed. Acid is corrosive, it hurts people when touched, and it is harmful to the environment. Protective equipment must be used in the production, and it should be handled according to the rules. And emergency measures should be set up in case. The storage of materials should also be careful, away from fire and heat sources, and separate categories to prevent their mutual interference and risk.
Repeat, the cleanliness of the environment also involves production. In an unclean environment, dust is mixed into the reaction, which can disrupt the process and reduce the quality of acid. Therefore, the factory should always be clean and well ventilated to facilitate the progress of production.
In short, all the details of acid production are important. Pay attention to these things, you can get high-quality acid, and ensure the safety and smoothness of the production process.

What is the reaction of 2- (N, N -dipropyl) aminoanisole-4 -sulfonic acid with other compounds?

I look at your words and ask what kind of reaction 2 - (N, N - dimethylacetamide) - 4 - thiazole will have with other compounds. This 2 - (N, N - dimethylacetamide) - 4 - thiazole has unique properties and can develop various changes in the stage of chemical reactions.
If it encounters an electrophilic reagent, because the thiazole ring has electron-rich properties, the electrophilic reagent is easy to attack the carbon atoms on the ring, resulting in an electrophilic substitution reaction. In case of halogenated reagents, or halogen atoms can be introduced at specific positions in the thiazole ring, and this halogen atom can be used as a key functional group to lead to a series of derivatization reactions.
When met with a nucleophilic reagent, the carbonyl group of 2- (N, N-dimethylacetamide) -4-thiazole may become the focus of the reaction. The nucleophilic reagent can attack carbonyl carbons to make amide bonds or acylation products. If the nucleophilic reagent is an alcohol or an ester compound; if it is an amine, a new amide derivative may be obtained.
If it is co-placed with some metal catalysts and specific ligands, it may initiate a coupling reaction. In this process, the thiazole ring can be connected to other organic fragments, expand the molecular structure, and form complex compounds, which is of great significance in the field of organic synthesis and can help create new drugs, functional materials, etc.
and 2- (N, N-dimethylacetamide) -4-thiazole also reacts differently in acidic or basic conditions. In acidic conditions, the amide group or hydrolysis releases the corresponding amine and carboxylic acid derivatives; in basic environments, the activity or change of the thiazole ring, the rearrangement of the substituents on the lead ring or other reactions depend on the specific reaction conditions and the compounds encountered.