6-Amidino-2-Naphthol Methanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	869512
Chemical Formula	C17H16N2O4S
Molecular Weight	344.39 g/mol
Appearance	Typically a solid
Solubility	Soluble in some polar solvents
Purity	Varies by grade, often high purity available
Melting Point	Specific melting point data
Boiling Point	Boiling point relevant details
Ph Range	pH characteristics in solution
Stability	Under certain storage conditions
Odor	May have a characteristic odor

Packing & Storage

Packing	100g of 6 - Amidino - 2 - Naphthol Methanesulfonic Acid packaged in a sealed plastic bag.
Storage	6 - Amidino - 2 - Naphthol Methanesulfonic Acid should be stored in a cool, dry place away from direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and contact with air, which could potentially cause degradation. Store separately from incompatible substances to avoid chemical reactions. Ensure proper labeling for easy identification and safe handling.
Shipping	6 - Amidino - 2 - Naphthol Methanesulfonic Acid is shipped in well - sealed containers, compliant with chemical transportation regulations. Special care is taken to prevent exposure, with proper labeling for safe handling during transit.

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6-Amidino-2-Naphthol Methanesulfonic Acid

General Information

Historical Development

The products of 6-alkyl-2-naphthol methanesulfonic acid can be traced back to its origin, but there was no such specific substance at the beginning. However, science has evolved, and all the sages have worked tirelessly. In the early years, the academic community focused on the exploration of chemical substances, and with the passage of time, the research became deeper and finer. Some wise people have carefully explored various combinations on the road of chemical synthesis. After countless attempts, repeated tests and analysis, this 6-alkyl-2-naphthol methanesulfonic acid was finally obtained. Since its birth, it has emerged in the field of chemistry, laying the foundation for subsequent research and application, opening a new chapter in the development of this special chemical product, and gradually developing its unique value in the road of scientific research and practical use.

Product Overview

6-Eryl-2-naphthol methanesulfonic acid is an important substance involved in the study of chemical products. It is unique in nature and has a unique chemical conformation. Viewing its shape, or in a crystalline state, it is bright and bright. In terms of its quality, it is suitable for dissolving in a specific solvent and can be used in a variety of chemical processes.
The preparation of this product requires fine control of the reaction conditions. Temperature and the proportion of reactants are all key. Through precise steps, high-purity products can be obtained.
It has a wide range of uses and can be used as a reagent in the field of biochemical analysis. Research assistants can gain insight into microscopic changes. In the synthesis of materials, it can also be a key component, giving materials special properties. Our research and research, hope to expand its use, develop its way, and add bricks and mortar to the progress of chemistry.

Physical & Chemical Properties

In the case of 6-alkyl-2-naphthol methanesulfonic acid, the rationalization of the substance is related to the wide and narrow range of use. The appearance of this agent is often powdery, the color is white or near-white, and the quality is uniform and fine. Its solubility in water is good, which makes it easy to disperse and participate in many liquid reactions. The melting point is fixed, about a specific temperature range, which is a sign of its purity. Thermal stability can also be observed. It can be kept at room temperature for a long time or in case of small thermal changes, and its properties are still stable. Its acidic characteristics can be used as a catalyst to help lead the reaction to the desired path in a specific reaction. Under light, the properties are also safe, and it does not change quickly, ensuring its long effect. Where this rationalization of nature, research assistants to understand its quality, for the use of the best choice, the law of the good design, paving the way.

Technical Specifications & Labeling

6-Eryl-2-naphthol methanesulfonic acid is a chemical product we are researching. Its technical specifications and identification (product parameters) are the key.
When it comes to technical specifications, the purity must be above 99%, and the impurity content must be strictly controlled. Its color should be pure and free of noise. The crystal form is regular and the particle size is uniform, so as to ensure high quality.
As for the logo, the name should be written in eye-catching words on the package, indicating the chemical formula, and the content and other parameters in detail. The batch and production date are also indispensable for traceability. Precautions for transportation and storage should also be clearly marked to prevent its deterioration and damage. In this way, the essence of the technical specifications and labels of this object can be obtained to ensure its quality and application.

Preparation Method

Preparation method of 6-alkyl-2-naphthol methanesulfonic acid (raw materials and production process, reaction steps, catalytic mechanism)
If you want to prepare 6-alkyl-2-naphthol methanesulfonic acid, you must first clarify its raw materials. Choose pure 2-naphthol as the base, supplemented by reagents containing amidine groups, and prepare an appropriate amount of catalyst, which are all key raw materials.
Its production process, first put 2-naphthol and specific reagents in a certain ratio into a clean reactor. Control the temperature in a moderate range, stir slowly, so that it is fully mixed. Then add a catalyst to catalyze the reaction. The reaction steps are rigorous, and the raw materials are initially heated to a certain temperature, so that the raw materials can initially react, and then stabilize at a certain temperature to ensure a smooth reaction process. The catalytic mechanism is that the catalyst activates the reactant molecules, reduces the reaction energy barrier, promotes the disconnection of chemical bonds, and increases the reaction speed. Efficiently obtain 6-alkyl-2-naphthol methanesulfonic acid, and abide by the rules of the process to maintain the purity of the product.

Chemical Reactions & Modifications

Fu 6 - Amidino - 2 - Naphthol Methanesulfonic Acid is a chemical compound. Its modification and reverse modification are studied by us.
The reaction of this compound often involves a general chemical process. Or it is different because of the quality of the product or the quality of the product. To obtain its goodness, it is necessary to study the quality of the product.
The modification of the product requires consideration of its quality and the quality of the product. It is difficult to improve its performance.
We study this chemical and reverse modification, hoping to obtain better properties of this compound, and add a new chapter to the chemical field as required.

Synonyms & Product Names

6-Eryl-2-naphthol methanesulfonic acid, its synonyms and trade names are really the key identification of this chemical. This chemical, with its uniqueness, has applications in many fields.
As far as synonyms are concerned, or there are different names, they all refer to the same substance. Although the names are different, they refer to the same substance. The trade names are the names given by merchants for their marketing in order to distinguish them from others.
In the field of chemical research, it is crucial to distinguish its synonyms and trade names. Knowing many synonyms can help researchers accurately search relevant information in the vast literature without missing key information due to name differences. The clarity of the product name helps to accurately select the required products in practical application scenarios. In this way, the characteristics, uses and potential value of this chemical can be better explored, and the progress of chemical research and the development of related industries can be promoted.

Safety & Operational Standards

6-Eryl-2-naphthol methanesulfonic acid is a chemical product that we study with great care. It needs to be carefully produced and operated in a safe manner.
The preparation of this substance, the use of all raw materials, and the control of reaction conditions should be in accordance with precise procedures. All kinds of reaction equipment must be cleaned and carefully inspected in advance to prevent impurities from mixing in, causing reaction errors, or even causing safety risks. Reaction temperature, pressure, and time are all key factors, which are completely different, or cause very different consequences. Therefore, special personnel are required to strictly monitor, record and adjust at any time.
Store the product in a cool, dry, and well-ventilated place. The seal must be tight to prevent moisture dissolution, oxidation, and separate storage with other chemicals to avoid adverse reactions. When handling, handle it with care to avoid damage and leakage of its container.
When operating, the operator must wear complete protective equipment, such as protective clothing, gloves, goggles and gas masks, to fully protect their own safety. In the operation room, ventilation facilities must be unimpeded to disperse harmful gases in time. If there is an accidental spill of products, clean them up immediately according to regulations, and must not be lazy and delayed.
These safety and operating standards are related to the well-being of everyone. We chemical researchers should be engraved in our hearts and practice them constantly to ensure smooth scientific research and production, and live up to our enthusiasm and responsibility for the chemical industry.

Application Area

6-Eryl-2-naphthol methanesulfonic acid, this substance has a wide range of uses. In the field of biochemical research, it can be used as a probe for specific biomolecules. With its unique chemical structure, it can accurately identify and bind certain key biomolecules, helping researchers to gain insight into the complex biochemical reaction mechanisms in organisms.
It also has important applications in medical testing. It can be used for the detection of specific disease markers, and by specifically reacting with markers, it can achieve early diagnosis and disease monitoring. For example, in the diagnosis of certain tumor diseases, it can provide key diagnostic basis through its role in tumor-related proteins.
Furthermore, in the field of drug development, it can serve as a lead compound, providing a key structural template for the design and synthesis of new drugs, and helping to develop innovative drugs with more curative effects and fewer side effects.

Research & Development

Recently, I have been focusing on the research of 6 - Amidino - 2 - Naphthol Methanesulfonic Acid. It is unique and has potential in various fields. I have investigated its chemical structure, analyzed the reaction mechanism in detail, and hoped to clarify its essence.
During the research, many experiments have been conducted to observe its changes under different conditions. After repeated investigation, some gains have been made. This substance can exhibit extraordinary properties in a specific environment, or it can lead to changes in various applications.
I also think about its development. If it can be used well and expand its application scope, it will definitely bring new images to the industry. In the future, we should continue to study this material in order to make better development and contribute to the progress of science.

Toxicity Research

Today there is a thing called 6 - Amidino - 2 - Naphthol Methanesulfonic Acid. I take the study of poisons as my service to study the toxicity of this thing.
Observe its properties, explore its quality, and observe its sympathetic state with other things. In various experiments, examine its effect on living things in detail. Or apply it to insects, or test it on guinea pigs, observe changes in their behavior, diet, and growth.
After repeated investigations, we know the signs of toxicity of this thing. When it is in low doses, there may be slight disturbances, and the living things are not seriously ill; however, when the dose increases, it will show discomfort, and the vitality will gradually decrease, even endangering life.
I should record this study in detail to clarify its toxicity for future researchers to test, hoping to avoid its harm and pursue its benefits when applying it in various ways, and to ensure the safety of all living beings.

Future Prospects

6-Amidino-2-Naphthol Methanesulfonic Acid, although it has been studied now, the future prospect is still broad. In the field of biochemistry, it can assist in the study of cellular mechanisms, clarify the mysteries of life, observe microscopic changes, and explore the wonders of metabolism. In the road of medicine, it is expected to become a new diagnostic device, help doctors accurately diagnose diseases, and heal the bodies of patients. In industry, it may be the key to material improvement, the nature of adding things, and the use of it. Although the road ahead is uncertain, but with the heart of research and unremitting progress, it will be able to tap its endless potential, shine brightly in the future, and add bricks and tiles to the well-being of the world. It will become an unfinished business and a grand future.

Frequently Asked Questions

What are the main uses of 6-Amidino-2-Naphthol Methanesulfonic Acid?

The compound formed by 6-alkyl-2-naphthol and methanesulfonic acid has a wide range of uses. In the field of medicinal chemistry, it is often used as a key intermediate. Gein 6-alkyl-2-naphthol has a specific chemical structure and activity, and the combination of methanesulfonic acid with it may change the physical and chemical properties of the compound, such as solubility and stability, etc., helping it to be easier to control and react in the process of drug synthesis. Based on this, it may be able to synthesize drugs with special pharmacological activities, which can be effective for specific disease targets and provide an important material basis for the development of new drugs.
In the field of materials science, the combination of the two may exhibit unique properties. For example, in the preparation of some functional materials, it can be used as an additive or modifier. Its structural properties may endow the material with new properties, such as improving the surface properties and electrical properties of the material. If used in the preparation of polymer materials, it may affect the molecular chain arrangement and interaction of the polymer, thereby optimizing the mechanical properties and thermal stability of the material.
In the field of organic synthesis, the combination of 6-alkyl-2-naphthol and methanesulfonic acid is also a common reagent. It can participate in many organic reactions and provide an effective way to construct complex organic molecular structures. With the help of their unique reactivity, specific functional groups can be converted and linked, and organic compounds with special structures and functions can be synthesized to promote the development of organic synthesis chemistry.

6-Amidino-2-Naphthol the physical properties of Methanesulfonic Acid

The physical properties of the compound formed by 6-alkyl-2-naphthol and methanesulfonic acid are of great interest. The combination of the two results in a unique product.
First of all, the appearance is usually white to white crystalline powder, fine and uniform, and the appearance is quite textured. Its properties are stable at room temperature and pressure, and it may encounter hot topics, or there is a risk of decomposition.
When it comes to solubility, it has a certain solubility in polar solvents such as water. Because of this molecular structure, 6-alkyl-2-naphthol contains hydrophilic groups, which can be combined with water molecules by hydrogen bonding and other effects; methanesulfonic acid is also a water-soluble substance. After the combination of the two, it still has this characteristic. In non-polar organic solvents, such as n-hexane, the solubility is very small.
The melting point has been experimentally determined and has a specific value. This value is extremely critical for the identification of this compound, because the melting point is like the "fingerprint" of a substance, unique and clear.
Furthermore, its density is also an important physical property. Under specific conditions, it can be accurately measured, and this value is of great significance for studying its behavior in different environments, such as distribution in solution.
The physical properties of this compound are of great value in many fields such as chemical industry and medicine, laying the foundation for related research and applications.

6-Amidino-2-Naphthol Methanesulfonic Acid Chemically Stable?

The chemical stability of the compound formed by 6-alkyl-2-naphthol and methanesulfonic acid is a crucial consideration. After the combination of the two, from the perspective of chemical structure, 6-alkyl-2-naphthol has a specific functional group, and the structure of amidine and naphthol gives it certain reactivity and characteristics. As an organic acid, methanesulfonic acid also has its unique chemical behavior.
When the two meet or undergo a chemical reaction, a new compound is formed. Its stability is affected by many factors. The first one to bear the brunt is the intermolecular force. In new compounds, the strength of chemical bonds between atoms and the interactions between molecules, such as hydrogen bonds, van der Waals forces, etc., have a profound impact on their stability. If strong hydrogen bonds or other stable interactions can be formed between molecules, the compound tends to be stable.
Secondly, external environmental factors cannot be ignored. As the temperature increases, the thermal motion of molecules intensifies, or the vibration of chemical bonds increases, there is a risk of decomposition of the compound, and the stability decreases. Humidity also affects. If the ambient humidity is high, or reactions such as hydrolysis are triggered, the stability of the compound is damaged.
Furthermore, the properties of solvents are also related to stability. Different solvents interact with compound molecules differently. Some solvents may promote the decomposition of the compound, while others may have a stabilizing effect.
However, in general, only in the general case of the combination of the two, if there is no special external interference, the formed compound may maintain a certain stability under normal temperature, dry and suitable solvent environment. However, to know the details of its stability, it is necessary to pass rigorous experiments, such as thermogravimetric analysis, stability testing, etc., to obtain accurate conclusions.

6-Amidino-2-Naphthol Methanesulfonic Acid when storing

When storing 6-alkyl-2-naphthol and methanesulfonic acid, many things need to be paid attention to. These two are unique in nature and prone to changes due to improper storage.
First choice of environment. Find a cool, dry and well-ventilated place. If the environment is warm and humid, 6-alkyl-2-naphthol may deliquesce, and methanesulfonic acid may also change the concentration due to humidity, which in turn affects its chemical activity.
Furthermore, storage containers must be selected carefully. For 6-alkyl-2-naphthol, sealed glass or plastic bottles should be used to prevent it from oxidizing due to excessive contact with air. Methanesulfonic acid is highly corrosive. Be sure to use a special corrosion-resistant container, such as a metal drum lined with special materials or a specific plastic container, and the container must be tightly sealed to prevent leakage.
In addition, the two should not be mixed. 6-alkyl-2-naphthol and methanesulfonic acid have different chemical properties. Mixing may cause chemical reactions, or cause deterioration of substances, or even cause danger. Therefore, it should be placed separately, and the storage area should be clearly marked to indicate the stored items to prevent misuse.
At the same time, the storage area should be protected from fire and heat sources. Although 6-alkyl-2-naphthol is not flammable, it may be risky in extreme conditions such as hot topics. Although methanesulfonic acid is non-flammable, it may evaporate and increase in acid mist in the environment when heated, which is very harmful.
Finally, regular inspection is also indispensable. It is necessary to check whether the storage container is damaged or leaked, and whether the appearance of the material has changed abnormally. If any problems are found, proper measures should be taken immediately to ensure storage safety and prevent improper storage from causing material failure or causing safety accidents.

6-Amidino-2-Naphthol the production process of Methanesulfonic Acid

The preparation process of 6-alkyl-2-naphthol and methanesulfonic acid is a key task in the field of fine chemicals. The process is complicated and the steps are rigorous, which can be described in detail.
At the beginning, choose high-quality 6-alkyl-2-naphthol raw materials, whose purity is of paramount importance and affects the quality of the finished product. At the same time, prepare methanesulfonic acid to ensure that its concentration and purity meet the requirements.
In the reaction kettle, according to the precise ratio, 6-alkyl-2-naphthol and methanesulfonic acid are slowly mixed. In this process, the stirring rate needs to be stable to make the two blend evenly. Temperature control is also the key. According to the reaction characteristics, it can be controlled in a suitable range, or in a mild and warm state to promote the smooth reaction.
During the reaction, closely observe it. Or see color and texture changes, which are all signs of the reaction process. According to the monitoring results, adjust the parameters in a timely manner, such as fine-tuning the temperature and rate, to ensure that the reaction runs as expected.
After the reaction is completed, separate and purify. You can remove impurities by filtration, distillation, extraction, etc., to obtain a pure product. This step requires fine operation to ensure the purity and yield of the product.
At the end, strictly check the quality of the product. Measure its purity and content, and check its properties to ensure that it meets industry standards and customer needs. Through layers of processes and rigorous operation, we can obtain high-quality 6-alkyl-2-naphthol and methanesulfonic acid products to meet the needs of various industries.