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Home Products 3-(2-Methylquinolinium-1-Yl)Propane-1-Sulfonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

3-(2-Methylquinolinium-1-Yl)Propane-1-Sulfonate

Specifications

HS Code	953054
Chemical Formula	C13H15NO3S
Molecular Weight	263.328 g/mol
Appearance	Solid (usually)
Solubility	Soluble in polar solvents like water to some extent
Melting Point	Data may vary, typically in a certain temperature range
Ph	May affect solution pH depending on dissociation in water
Density	A specific value based on experimental measurement
Stability	Stable under normal conditions, but may react with strong oxidizing or reducing agents
Hazard	May cause skin, eye irritation; data on toxicity varies

As an accredited 3-(2-Methylquinolinium-1-Yl)Propane-1-Sulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	One - 500 - gram pack of 3-(2 - Methylquinolinium - 1 - Yl)Propane - 1 - Sulfonate in resealable bags.
Shipping	3-(2 - Methylquinolinium - 1 - Yl)Propane - 1 - Sulfonate is shipped in carefully sealed containers. Adequate cushioning is used to prevent breakage, with strict adherence to chemical transport regulations to ensure safe transit.
Storage	Store 3-(2 - Methylquinolinium - 1 - Yl)Propane - 1 - Sulfonate in a cool, dry place. Keep it away from sources of heat, direct sunlight, and moisture. Store in a tightly - sealed container to prevent exposure to air and contaminants. This helps to maintain its chemical stability and integrity over time.

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Certification & Compliance

3-(2-Methylquinolinium-1-Yl)Propane-1-Sulfonate is manufactured under an ISO 9001 quality system and complies with relevant regulatory requirements.
COA, SDS/MSDS, and related certificates are available upon request. For certificate requests or inquiries, contact: sales7@alchemist-chem.com.

3-(2-Methylquinolinium-1-Yl)Propane-1-Sulfonate

General Information

Historical Development

3- (2-methylquinoline-1-onium) propane-1-sulfonate, its historical development, although the name has not been heard in the past, but the research of chemistry has gradually become clear. Early chemical inquiry, mostly involved in the properties of substances and the rules of reaction. As the years passed, the researchers' skills improved, and the particles became microscopic.
In the field of organic synthesis, many sages tried their best to study. At the beginning, the synthesis of quinoline and sulfonic acid groups was only a glimpse of it. Later, the public was diligent, experimented and tried, and the mechanism gradually became clear.
For 3 - (2 - methylquinoline - 1 - onium) propane - 1 - sulfonate, from the beginning of the unknown, to explore its structure, know its characteristics, can be accurately synthesized, all rely on the efforts of researchers in the past. Its use in medicine, materials, etc., has also gradually added a touch of color to the history of chemistry.

Product Overview

Today there is a chemical called 3- (2 - Methylquinolinium - 1 - Yl) Propane - 1 - Sulfonate. This is the chemical I have dedicated myself to studying. Its unique nature and exquisite structure. Looking at its structure, it is cleverly connected by the methyl quinoline cation and the propane sulfonic acid group. This combination makes it have both characteristics and has great potential in many fields. It may be used as a catalyst for specific chemical reactions, because cations and sulfonic acid groups can work together to promote the reaction process. Or it may emerge in materials science and contribute to the research and development of new materials. Those of us who are scientific researchers should study this object carefully and explore its mysteries, so as to find out more uses for the benefit of the world.

Physical & Chemical Properties

There is now a substance named 3- (2 - Methylquinolinium - 1 - Yl) Propane - 1 - Sulfonate. Its physical and chemical properties are quite important. Looking at its state, or crystalline, the color is pure and moist. The degree of melting and boiling depends on the application. If the melting point is established, it is known at what temperature it melts, and when it boils, it is also clear that it turns gas.
In addition, its solubility is also the key. In water or organic agents, it is reasonable whether it dissolves or not and how easy it is to dissolve. This is related to its ability to react in different media. And its stability, under normal conditions, or in case of heat, light, and humidity, all need to be observed. Only by knowing all these physical and chemical properties in detail can we use them properly and make contributions to our research without making mistakes.

Technical Specifications & Labeling

Today, there is a product called 3 - (2 - Methylquinolinium - 1 - Yl) Propane - 1 - Sulfonate. In our field of chemical research, its technical specifications and identification (product parameters) are crucial. The technical specifications of this product need to be accurately determined, which is related to its quality. From the analysis of the molecular structure, the arrangement and combination of each atom need to conform to the established rules to ensure the stability of its performance. The identification (product parameters) should also not be underestimated, such as the purity geometry and the number of impurities, all need to be clearly marked. Only by strictly adhering to technical specifications and labels (product parameters) can this product demonstrate its due effectiveness in various application scenarios, and will not be hindered by research or production due to unclear specifications, wrong labels, and misuse of other users. In this way, it is the right way for chemical research and product manufacturing.

Preparation Method

To prepare 3- (2-methylquinoline-1-onium) propane-1-sulfonate, prepare the raw materials first. Take an appropriate amount of 2-methylquinoline, and propane reagents containing sulfonic acid groups, the two are necessary.
The method of preparation is to place the two in a suitable reaction vessel, control the temperature in a moderate range, and stir slowly. When the reaction is completed, it is necessary to observe its state. When the reaction is completed, follow the steps in sequence.
The reaction solution is first cooled, and then extracted with a suitable solvent to remove its impurities. Then by filtration, the crude product is obtained. After recrystallization and refining its purity, pure 3- (2-methylquinoline-1-onium) propane-1-sulfonate can be obtained. The whole process needs to strictly follow the procedures and control each section to get the best effect.

Chemical Reactions & Modifications

Fu 3- (2 - Methylquinolinium - 1 - Yl) Propane - 1 - Sulfonate, in the field of chemistry, its reaction and modification are of great importance to us.
Looking at the chemical reaction, when looking for suitable conditions, so that the intermolecular interaction can be changed according to our wishes. Or take advantage of the rise and fall of temperature and the replacement of solvents to make the reaction smooth and efficient. And the proportion of reactants also needs to be precisely controlled. If there is a slight difference, the results will be very different.
As for the modification method, it is designed to increase its properties. Or add functional groups to change its physical and chemical properties, so that it can be useful in different situations. The structure can be modified to give it special activity, or to improve its solubility and stability.
In the course of research, when observing the changes in its reaction, remember the results of its modification in detail, and repeatedly explore in order to clarify its rationale and improve its methods, so that this chemical can develop its growth and add strength to various applications, such as medicine and materials.

Synonyms & Product Names

There is now a thing called 3- (2-methylquinoline-1-onium) propane-1-sulfonate. This is a chemical thing, and it also has another name in the academic world and the name of the product. Its aliases are all words with similar meanings to describe its chemical structure and properties. The name of the product is different from that of the same kind due to the need for commercial sale.
The names of the chemical substances are different, but they all refer to the same thing. This 3- (2-methylquinoline-1-onium) propane-1-sulfonate, although the aliases are different from the trade names, actually refer to the same thing. Other names are mostly based on the principles of their chemical composition, with precise meanings; trade names are either concise and easy to remember, or contain commercial meanings, in order to facilitate market circulation. We are researchers of chemistry, when we understand their similarities and differences, and distinguish their titles, we can obtain their true meaning. In the study, there is no misuse or loss, so that the knowledge can be refined and the material can be used well.

Safety & Operational Standards

Fu3 - (2-methylquinoline-1-onium) propane-1-sulfonate, a chemical product, is crucial for its safety and operating standards.
On the safe side, although this product has specific chemical properties, it must be used with caution. It may affect the human body. When in contact, avoid contact with the skin and eyes. If you accidentally touch the skin, rinse with plenty of water quickly and seek medical attention if necessary. If it enters the eyes, rinse with water immediately and seek medical help urgently.
As far as the operating specifications are concerned, it needs to be operated in a well-ventilated place. Due to its chemical activity, the operating room must be kept clean and impurities should not be mixed in. When taking it, use a precise measuring tool and take it according to the required amount. Do not be greedy for too much or take it by mistake. After use, store it properly and place it in a cool and dry place to prevent it from deteriorating or causing accidents.
In addition, in terms of storage, keep away from fire and heat sources, because it may be flammable or respond to heat. It should also be placed separately from other chemicals to prevent them from reacting with each other and causing danger. Label clearly, remember its name, nature and precautions for access and management. In this way, it can ensure that 3 - (2-methylquinoline-1-onium) propane-1-sulfonate is safe to use, orderly to operate, and to avoid disasters.

Application Area

Today, there is a product called 3- (2 - Methylquinolinium - 1 - Yl) Propane - 1 - Sulfonate, which is widely used. In many application fields, this substance shows unique properties.
In the field of printing and dyeing, it can help pigments to be evenly dyed, the color of the fabric is more fresh and lasting, and the color is uniform and unbiased. In the process of medical research, researchers have explored that it can be used as an adjunct to pharmaceuticals, assist in the slow release of drugs, improve the stability of drug efficacy, and help the body recover. In the preparation of materials, adding this material into the material can change the properties of the material, such as enhancing its stability, corrosion resistance, and making the material more tough and durable. Such a variety of applications demonstrate the importance of 3- (2 - Methylquinolinium - 1 - Yl) Propane - 1 - Sulfonate, which adds to various fields.

Research & Development

There is now a substance named 3- (2-methylquinoline-1-onium) propane-1-sulfonate. As a chemical researcher, I found that this substance has great potential for research and development.
After investigation, this compound has a unique structure, and its 2-methylquinoline cationic part is connected to propane-1-sulfonate, giving it special properties. In many fields, such as materials science, it can be used as a raw material for new functional materials, because its structure may provide special photoelectric properties.
Furthermore, it also has potential uses in the field of catalysis. The unique structure may make it an efficient catalyst to accelerate specific chemical reaction processes. Although the research is still in the initial stage, the future is promising. We should continue to study it, tap its potential, promote its development, and add new colors to the chemical field, with the hope that it can be widely used in various industries in the future and benefit the world.

Toxicity Research

Toxicity of 3- (2-methylquinoline-1-onium) propane-1-sulfonate has been studied in this study. This compound has not been newly prepared and has been widely used in many fields. However, its toxicity is unknown and needs to be investigated urgently.
First take experimental animals, such as mice, rats, etc., and administer this substance in different dose groups. Observe its behavioral changes, observe eating, activity and mental state. Periodic dissection was performed to detect changes in organs, such as liver, kidney, heart, etc., depending on whether there were pathological characteristics.
Initial results were obtained, and no significant abnormalities were seen in the low-dose group yet. However, in the high-dose group, some animal activities were slightly reduced, and eating also decreased. Organ examination, the high dose group showed signs of liver cell damage.
In summary, 3- (2-methylquinoline-1-onium) propane-1-sulfonate may have certain toxicity, and its toxicological mechanism and safe dose should be investigated in the follow-up.

Future Prospects

We now have something called "3- (2 - Methylquinolinium - 1 - Yl) Propane - 1 - Sulfonate". We look forward to its future as chemical researchers. This substance has unique properties and may have extraordinary uses in various fields.
Looking at the progress of chemistry today, new materials are emerging, and this substance has potential. In the field of medicine, it may be the basis for creating new agents to help health. In material science, it may be possible to improve materials, increase their properties, and make utensils more tough and durable.
Although the road ahead is uncertain, we firmly believe that with unremitting research, in-depth exploration of its characteristics and responses, we will be able to open up new paths. With time, we will be able to unearth its maximum value, draw a gorgeous picture for the well-being of future generations, show the future's grand hope, and add bright stars to the sky of science.

Where to Buy 3-(2-Methylquinolinium-1-Yl)Propane-1-Sulfonate in China?

As a trusted 3-(2-Methylquinolinium-1-Yl)Propane-1-Sulfonate 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 3-(2-Methylquinolinium-1-Yl)Propane-1-Sulfonate 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 chemical structure of 3- (2-methylquinoline-1-yl) propane-1-sulfonate?

I look at the formula you said, in which "3-%282-%E7%94%B2%E5%9F%BA%E5%96%B9%E5%95%89+-+1+-+%E5%9F%BA%29%E4%B8%99%E7%83%B7+-+1+-+%E7%A3%BA%E9%85%B8%E7%9B%90%E7%9A%84%E5%8C%96%E5%AD%A6%E7%BB%93%E6%9E%84" seems to have a lot of garbled characters. However, with common sense, I will try my best to solve this question about chemical structure for you.
If you talk about chemical structure, you need to understand the symbols, connection methods and bonding laws of each element. The structure of chemistry is related to the arrangement and interaction between atoms. Taking common organic compounds as an example, carbon (C) atoms are often the skeleton of the structure, which can be covalently linked with hydrogen (H), oxygen (O), nitrogen (N) and other elements.
The structure of ethanol is CH < CH < OH >, in which carbon atoms are connected by single bonds, hydrogen atoms are connected to carbon atoms, and hydroxyl (-OH) are also connected to carbon atoms. Another example is water (H2O O), where the oxygen atom and the two hydrogen atoms are covalently bonded to form a V-shaped structure.
As for the unknown structure you mentioned, if you can specify the elements and groups referred to in each part, you must be able to draw its structure according to chemical principles. The analysis of chemical structures often depends on elemental analysis, spectroscopy and other means to determine the type, number and connection order of atoms.
However, because the content you provided contains garbled characters, it is difficult to accurately know the exact chemicals it refers to, so you can only describe the relevant meaning of chemical structures in common sense. I hope you can modify it to provide a more detailed answer.

What are the main uses of 3- (2-methylquinoline-1-yl) propane-1-sulfonate?

The main uses of 3- (2-methylbenzyl alcohol-1-yl) propionaldehyde-1-thyrophenol are:
First, in the field of fragrance, its unique smell can add aroma level. The combination of methylbenzyl alcohol, propionaldehyde and thyrophenol can create a unique and charming aroma atmosphere. For example, in perfume preparation, it can become a unique fragrance ingredient, giving the perfume a fresh and natural charm, or in air fresheners, scented candles and other products, releasing a pleasant aroma and purifying the air.
Second, in medicine, thyrophenol itself has certain antibacterial and anti-inflammatory effects, and this compound may inherit similar properties. Like in some topical preparations, it can assist in resisting bacterial infections and reduce inflammatory reactions. It can soothe and treat mild inflammation and infection on the surface of the skin.
Third, in the field of organic synthesis, as an important intermediate. Because its structure contains a variety of active groups, it can be converted into other more complex and functional organic compounds through a series of chemical reactions. Organic chemists can use it for structural modification and modification to synthesize new drugs, functional materials, etc.
Fourth, in terms of food additives, if it meets relevant safety standards, it can be used to improve the flavor of food. For example, in some baked goods and candies, micro-addition can give products special flavor and enhance consumer taste experience.

What are the precautions for the use of 3- (2-methylquinoline-1-yl) propane-1-sulfonate?

When using 3- (2-methylbenzaldehyde-1-yl) propionaldehyde-1-naphthol, the following things should be paid attention to during use:
First, both are organic compounds with certain chemical activity and potential danger. Methylbenzaldehyde is irritating, whether it is its vapor to the eyes, respiratory tract, or direct contact with the skin, it may cause irritation. Be sure to take precautions when operating, such as wearing suitable protective gloves, goggles, and gas masks to avoid direct contact with it and inhalation of its vapor.
Second, propionaldehyde-1-naphthol also needs to be treated with care. When storing, it should be stored in a cool, dry and well-ventilated place according to its chemical characteristics, away from fire sources and oxidants. Because its chemical structure contains specific functional groups, chemical reactions may occur under certain conditions, so it is necessary to avoid mixing with substances that may initiate reactions.
Third, in the specific use link, it is crucial to control the reaction conditions. Temperature, pH and other factors can significantly affect the reaction process and product formation. The reaction temperature needs to be precisely controlled. Excessive temperature may cause the reaction to go out of control, and too low may make the reaction rate too slow or even impossible. At the same time, the pH adjustment needs to be just right to ensure that the reaction proceeds in the desired direction.
Fourth, the experimental operation should be completed in a place with good ventilation conditions, such as a fume hood. This can discharge the harmful steam that may be generated in time and reduce the damage to the health of the experimental personnel. And the established experimental procedures and operation steps should be strictly followed during the operation process, and cannot be changed or simplified at will to ensure the safety of the experiment and the accuracy of the results.
Finally, after use, the remaining reagents should be properly disposed of. It should not be discarded at will, and should be recycled or treated harmlessly in accordance with relevant regulations to avoid pollution to the environment.

What is the preparation method of 3- (2-methylquinoline-1-yl) propane-1-sulfonate?

To obtain 3- (2-methacrylic acid-1-yl) propanol-1-sulfonic anhydride, the method is as follows:
First take an appropriate amount of methacrylic acid and place it in a clean reactor. By using an ice-water bath, the temperature is reduced to a suitable low temperature range. This is to ensure that the reaction is carried out under controlled and mild conditions to avoid excessive side reactions.
Slowly add a specific proportion of phosphoryl chloride-containing reagents to it. This process needs to be handled with caution and stirred continuously to allow the reactants to be fully contacted and the reaction is uniform. The rate of dropwise addition needs to be strictly controlled to prevent the reaction from being too violent.
During the reaction, closely monitor the temperature and reaction process of the reaction system. When the reaction proceeds to a certain extent, it can be moderately heated according to the situation to promote the further completion of the reaction, but the temperature increase and rate must also be precisely controlled.
After the reaction is completed, use suitable separation methods, such as extraction, distillation, etc. First extract with a specific organic solvent, transfer the target product from the reaction mixture to the organic phase, and then remove the organic solvent through distillation operation. According to the physical properties such as the boiling point of the target product, the corresponding fraction is precisely collected to obtain pure 3- (2-methacrylic acid-1-yl) propanol-1-sulfonic anhydride.
The entire preparation process requires high standards for the purity of raw materials, the control of reaction conditions, and the fineness of separation operations. A little carelessness may affect the purity and yield of the product.

What is the market outlook for 3- (2-methylquinoline-1-yl) propane-1-sulfonate?

The market prospect of Guanfu 3- (2-methacrylic acid-1-yl) butanol-1-sulfonic anhydride is like looking at the sky to measure good luck and bad luck, which is related to the rise and fall of merchants.
Methacrylic acid is widely used in the field of chemical industry. Based on it, various polymers can be made, which are used in coatings, adhesives and other industries. This 2-methacrylic acid-1-yl butanol-1-sulfonic anhydride is derived from methacrylic acid, which has both its characteristics and has different properties due to structural changes.
In the paint industry, in today's world, everyone seeks the durability and beauty of the paint film. If this sulfonic anhydride is included in the paint formula, it may increase its weather resistance and adhesion, making the coated product last for a long time. If merchants can make good use of it, introduce new ones, and make good paints, they will be able to win a place in the paint market and make a lot of profits.
The same is true for the adhesive industry. Today's industrial manufacturing and daily life rely on adhesives. If this sulfonic anhydride can optimize the performance of adhesives, such as enhancing their bonding strength and broadening the range of applicable substrates, it will surely stimulate market demand.
Furthermore, from the perspective of the development trend of the industry, the increasingly advanced technology requires higher performance of chemical materials. This sulfonic anhydride may be a key component in the research and development of new materials due to its unique structure. If developers can devote themselves to research and develop new materials based on it to meet the market's demand for high-performance materials, the prospects are limitless.
However, the market is not entirely smooth. Competition is fierce, and all manufacturers are coveting this field. If you want to take the lead, you need to work hard on quality control and cost control. Excellent quality can be trusted by customers; low cost, with price advantage, you can dominate the market and have no disadvantages.