2-Naphthalenesulfonic Acid, 6-Hydroxy-, Potassium Salt (1:1)

Lingxian Chemical

Specifications

HS Code	788901
Chemical Name	2-Naphthalenesulfonic Acid, 6-Hydroxy-, Potassium Salt (1:1)

Packing & Storage

Packing	1 kg of 2 - Naphthalenesulfonic Acid, 6 - Hydroxy -, Potassium Salt in sealed container.
Storage	Store 2 - Naphthalenesulfonic Acid, 6 - Hydroxy - , Potassium Salt (1:1) in a cool, dry area away from sources of heat and ignition. Keep it in a tightly sealed container to prevent moisture absorption and contamination. Avoid storing near incompatible substances to prevent chemical reactions. Store at ambient temperature to maintain its stability.
Shipping	2 - Naphthalenesulfonic Acid, 6 - Hydroxy - , Potassium Salt (1:1) is shipped with proper packaging to prevent breakage and leakage. It adheres to strict chemical shipping regulations, ensuring safe transit for this potentially hazardous chemical.

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2-Naphthalenesulfonic Acid, 6-Hydroxy-, Potassium Salt (1:1)

General Information

Historical Development

2-Naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1), the evolution of its history is really related to the process of chemical inquiry. In the past, the chemical sages studied the properties of substances. At the beginning, they knew one or two characteristics of this thing, but they did not fully understand it. After several generations, the public has worked tirelessly to analyze its structure or explore its reaction. At first, the cognition was only an appearance, and after repeated experiments, it was analyzed by its components to clarify its chemical principles. Today, its properties, preparation methods, and uses are all well understood. This is all due to the diligent exploration of chemists of all dynasties, so that this thing has been obscure and unknown to the academic community. Its historical evolution is also a clear evidence of the development of real chemistry.

Product Overview

Today there is a product called "2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1) ". This is a product of fine chemicals and has important uses in many fields.
Looking at its properties, it shows a specific shape and color quality. In terms of chemical properties, its molecular structure is unique. It is derived from the naphthalene ring, and the sulfonic acid group, hydroxyl group and potassium ion are cleverly combined, giving it unique chemical activity.
In industrial applications, it is often used as an auxiliary for specific reactions. With its chemical properties, it can effectively promote the reaction process and improve the quality of the product. It also plays a key role in the preparation of certain materials, helping materials to obtain specific properties.
This compound, although microscopic, has far-reaching effects, contributing to the chemical industry and promoting the development of related industries.

Physical & Chemical Properties

2-Naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1), this material is special, related to the properties of physicochemistry. Its shape and color are also, often in the shape of so-and-so, and the color is like so-and-so. Its melting and boiling point has a fixed number, the melting point is about [X] ° C, and the boiling point is about [X] ° C. In water and other solvents, the solubility is also different, slightly soluble in water, and easily soluble in so-and-so organic solvents. Its chemical properties are acid-like, and can react with bases to neutralize and form corresponding salts. And under specific conditions, it can participate in a variety of organic reactions, or add, or replace, and is an important substance in organic synthesis. Such physical and chemical properties are of great use in various fields of chemical industry, such as dyes, pharmaceuticals, etc.

Technical Specifications & Labeling

Regarding the product "2 - Naphthalenesulfonic Acid, 6 - Hydroxy -, Potassium Salt (1:1) ", its technical specifications and identification (product parameters) are extremely critical. It is necessary to investigate the source of the material in detail, and it is necessary to take pure naphthalene and other non-miscellaneous naphthalene as the base material to ensure the initial quality. The reaction process should follow the precise law, control the temperature in a suitable range, and observe the change of pressure to ensure that the reaction is complete.
The product made should be in a uniform state when viewed in color, and there should be no foreign gas when smelled. To measure its purity, it must be very high, and the impurity content must be minimal. On the label, in addition to the chemical name and composition ratio, it should also be properly stored to prevent it from getting wet and deteriorating, so as to obtain the essence of the product's technical specifications and identification (commodity parameters), so as to meet all requirements.

Preparation Method

The method of preparing 6-hydroxy-2-naphthalenesulfonic acid and potassium salt (1:1), the first raw material and production process. Select high-quality 2-naphthalene phenol, sulfonate to obtain 2-naphthalenesulfonic acid, and then hydroxylate it with a specific process to obtain 6-hydroxy-2-naphthalenesulfonic acid.
The reaction process should be controlled under suitable temperature and pressure. First heat up to the need for sulfonation, so that the sulfonation is sufficient, and then adjust the temperature to achieve the appropriate hydroxylation. During the reaction, pay attention to the ratio of materials to ensure accuracy.
After being made, it is separated and purified in various steps. Extract with a suitable solvent, remove impurities, and then obtain a purified product by crystallization It is necessary to strictly control the reaction conditions and improve the monitoring mechanism throughout the process, so as to ensure the quality of the product, stabilize the output, and meet the required standards.

Chemical Reactions & Modifications

One evening, I studied 2 - Naphthalenesulfonic Acid, 6 - Hydroxy -, Potassium Salt (1:1) in my study. Thinking about its chemical response, the results obtained in the past may not be good.
Looking at the reaction process, the method used may be optimized. In the past, the usual method was used. Although the product was obtained, it took a long time and the yield was not high.
I mean to investigate in detail the conditions of the reaction, such as temperature, pressure, catalyst, etc. If the temperature is adjusted to a suitable degree, the reaction may be accelerated and the yield increased. The choice of catalyst, or better, can change the path of chemical reaction and make the reaction easier.
Hope to think new and change its chemical response, so that the product is more efficient and the quality can be improved. In this way, it will live up to our research.

Synonyms & Product Names

On November 23, 2023, in my laboratory, I focused on the study of 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1). Its aliases are many, such as specific fields, it is also called naphthalenesulfonic acid potassium salt variants.
This substance is of great significance in industrial production and scientific research. In industry, it is often used as an intermediate for dye synthesis. With its special chemical structure, it can effectively participate in many complex chemical reactions and help generate colorful dyes. In the field of scientific research, it opens up new ideas for researchers in the development of organic synthesis paths and the development of new materials.
I often think that although the ancients did not recognize this precise chemical substance, their keen insight into material changes has something in common with the research of our generation today. Just as all kinds of strange things recorded in "Mengxi Bi Tan" are derived from meticulous observation of things. We should continue the spirit of exploration of the ancients and study this 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1) unremittingly, which will contribute to the development of chemistry.

Safety & Operational Standards

2-Naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1), safety and operation specifications
Fu 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1), is a commonly used substance in chemical research. Its experimental operation and storage process, safety is the most important, the first to bear the brunt.
As far as storage is concerned, it must be placed in a dry, cool and well-ventilated place. If this substance encounters moisture, it may cause changes in properties, affect the experimental results, and may pose a risk to safety. It should be kept away from fire and heat sources, because it is flammable to a certain extent, in case of open flames and hot topics, it is afraid of fire.
When operating, the experimenter must wear protective clothing, protective gloves and goggles. This substance comes into contact with the skin, eyes, or causes irritation or even burns. In the operating room, ventilation equipment must operate normally to prevent its volatilization from gathering indoors and endangering the health of the experimenter.
During the weighing process, the action should be slow and careful to avoid powder flying. If it is accidentally spilled, it should be cleaned immediately to prevent mixing with other substances and causing experimental errors. When dissolving this substance, it should be slowly added to the solvent in the correct order, and stirred while adding it to prevent local overheating or overreaction.
After the experiment is completed, the remaining materials should not be discarded at will, and should be recycled according to regulations. The equipment used should also be cleaned in time to ensure that there is no residue, so as not to affect the next experiment.
In short, in the research and application of 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1), follow safety and operation norms to ensure the smooth experiment and personnel safety.

Application Area

2-Naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1), this chemical substance is used in many fields. In the field of dyeing and weaving, it can be used as a dye intermediate to help synthesize dyes with bright color and good fastness, so that the fabric dyeing effect is better. In the pharmaceutical industry, with its unique chemical structure, it may be able to participate in drug synthesis and contribute to the creation of new drugs. In chemical production, it can also be used as a catalyst or auxiliary for certain chemical reactions to improve reaction efficiency and product purity. In short, this substance plays an indispensable role in industrial production and scientific research and exploration, promoting the continuous progress and development of related fields.

Research & Development

In recent years, Yu dedicated himself to the research of 2 - Naphthalenesulfonic Acid, 6 - Hydroxy -, Potassium Salt (1:1). This compound has unique characteristics and a wide range of uses.
Yu studied ancient books carefully and experimented meticulously. Its structure was analyzed, the source was explored, and the subtlety of its molecular structure was revealed. Observe its chemical properties and observe its changes in various reactions.
When experimenting, it was strictly handled and strived for accuracy. This salt was prepared by a variety of methods, and the advantages and disadvantages of each method were analyzed in detail. After repeated trials, the best method was obtained, with gradually increasing yield and excellent quality.
Thinking about the future, this compound may have greater applications in the fields of medicine and chemical industry. Yu should make unremitting research, hope to make breakthroughs, promote its development, and contribute to the academic community and industry, hoping to benefit the world.

Toxicity Research

Toxicity Study of 2-Naphthalenesulfonic Acid, 6-Hydroxy-, Potassium Salt (1:1)
Wutry to study "2-Naphthalenesulfonic Acid, 6-Hydroxy -, Potassium Salt (1:1) " This substance is related to the study of toxicity, which is of paramount importance.
Initially, observe its physical properties, observe its response to other substances, and record the changes in detail. Then, test its toxicity by various methods. In the test of animals, observe its shadow on living beings. Dose this substance on rats, rabbits, etc., and observe its changes in diet, behavior, and physiology.
Also explore its shadow in the environment. It is placed in water and soil to observe the life of microorganisms and the life of vegetation. If this substance is leaked outside, study the change of water and soil ecology.
The results of the research can show the degree of toxicity of this substance, which provides evidence for careful use and prevention. Make us wait for its use, avoid harm and profit, and protect the safety of life and soul, and the tranquility of the environment. It is not the responsibility of the researcher.

Future Prospects

I have dedicated myself to studying the wonders of 6-hydroxy-2-naphthalenesulfonic acid mono-potassium salt. Although this substance has not yet reached its peak in the present, I look at its future, just like the dawn of dawn, full of vigorous hope.
Its chemical characteristics, exquisite structure, unique performance, and potential to be tapped in many fields. In industrial manufacturing, it can be used as a high-efficiency auxiliary to improve product quality; in scientific research and exploration, it can also be the cornerstone of new theories and discoveries.
Although the current application is still limited, in time, it will be able to spread its wings like a great roc and skyrocket. We should explore in depth with determination and diligence. When the technology is mature and the cognition is complete, this substance will surely shine, add a lot of well-being to the world, lead the change of the industry, and create a novel pattern. This is our ardent prospect for the future of 6-hydroxy-2-naphthalenesulfonic acid monopotassium salt.

Frequently Asked Questions

What is the chemical structure of 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1)?

The synthesis of 2-% oxyribose, 6-amino-, and purine (1:1) is an important part of the biochemical domain. In this compound, 2-oxyribose is a derivative of sugar, which is above the ribosyl group and lacks an oxygen atom at the 2-carbon atom. This property gives it special physical properties and plays an important role in the reaction of polybiology.
And 6-amino-purine, also known as adenine, is one of the purinyl groups. It is formed by fusing one-pyrimidine and one-imidazole, and is bonded to an amino group at the 6-carbon atom. Adenine is an important component of DNA and RNA in the storage of biological information.
The combination of 2-oxyribose 6-amino-purine in a ratio of 1:1 forms an important nucleotide. The two are related to glycosides, in terms of, the 9-nitrogen atom of adenine 2-oxyribose 1-carbon atom is connected to β-N-glycoside to form adenine oxynucleotide. This is one of the basic building blocks of DNA, the polyadenine oxynucleotide, which forms the backbone of DNA, which plays a qualitative role in the density of living things, and in the production, breeding, and reproduction of living things. Therefore, the formation of 2-% oxyribose, 6-amino-, purine (1:1) is the core component of life information.

What are the common uses of 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salts (1:1)?

2-%E8%90%98%E7%A3%BA%E9%85%B8, 6-%E7%BE%9F%E5%9F%BA-,% E9% 92% BE% E7% 9B% 90 (1:1) is a common compound, and its common use is not good.
In the field of chemistry, this compound may have certain biological activity. Due to its chemical properties, it may be able to affect specific biological receptors or enzyme interactions. For example, in some studies, it has a certain effect on specific physiological systems, or can be used to develop new compounds to treat diseases such as inflammation, substitution and so on.
In the field of materials, it is also versatile. Because of its chemical properties, it can be added to specific materials to increase the properties of materials. For example, the addition of this substance to some polymer materials can improve the mechanical properties and corrosion resistance of the material, making it more effective in terms of workmanship and manufacturing of daily necessities.
In addition, in the field of chemical synthesis, 2-%E8%90%98%E7%A3%BA%E9%85%B8, 6-%E7%BE%9F%E5%9F%BA-,% E9% 92% BE% E7% 9B% 90 (1:1) often play an important role in synthesis. With its special functional properties and anti-activity, it can provide assistance for the development of synthetic compounds, promote the production of new compounds, and expand the field of chemical research, giving rise to more materials or substances with special properties and functions.

What are the physical properties of 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1)?

2-% oxyribose, 6-amino-, and purine (1:1) are important constituents of nucleic acid. Its physical properties are not specific, as described by you.
This compound is often white crystalline, and it is difficult to determine the location. Its melting phase is high, and due to the force of the molecule, it needs to be high before its lattice can disintegrate and dissolve into the liquid.
Furthermore, its solubility can also be determined. In water, it is not easily soluble, but it also has a certain solubility. This property is related to the properties of its molecules. Its molecular part has a strong group, so it can form a certain interaction with water molecules and can be tolerated in water. However, it is not completely soluble, because it also has non-soluble parts, which limits its dispersion in water.
As for the density, it also has its specific value. Compared with other compounds, it shows the density characteristics of its molecules and atomic weight. This density value makes it in a specific chemical environment, showing a specific physical behavior such as sedimentation and mixing.
And this compound is in the light and environment, and the physical properties can also be determined. When it is illuminated by light, its physical properties are still poor; however, if it is illuminated or damaged, or due to photochemical reaction, the molecules are changed, which affects its crystalline shape, solubility and other physical properties. In addition to the melting phase, the original physical rationality may also be greatly changed due to decomposition and other reactions.
Therefore, the physical rationality of 2-% oxyribose, 6-amino-, purine (1:1) is very important for chemical and biological domains, which affects its function in biology, as well as its application in chemical synthesis and analysis.

What are the synthesis methods of 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1)?

To prepare 2-mercaptoacetic acid, 6-amino-, cobalt oxime (1:1), there are three methods.
First, mercaptoacetic acid is used as the starting point, followed by an amino-containing compound, in the environment of suitable temperature, pressure and catalyst, through condensation reaction, this product can be obtained. However, in this way, the raw materials need to be carefully selected to ensure that they are pure, and the reaction process is controlled to avoid the production of heterozygous products.
Second, the intermediate product containing mercapto and amino groups is first prepared, and then it is reacted with cobalt salts. First carefully synthesize the intermediate to control its structure and purity, and then mix it with the cobalt salt in a suitable solvent to adjust the pH value, temperature and other conditions to promote its complexation. The key to this approach is the preparation of intermediate products, and the final product is of good quality.
Third, with a specific organic synthesis path, starting from the basic organic raw materials, through multi-step reactions, the structure of thiol, amino and cobalt oxime is gradually introduced. Although this path is complex, molecules can be designed on demand to obtain high-purity products. However, each step of the reaction needs to be carefully studied to clarify its mechanism, control the reaction conditions, and the separation and purification of intermediate products also requires fine operation.
Each method has its advantages and disadvantages. It is necessary to carefully select the appropriate method according to the preparation of raw materials, the condition of equipment and the requirements of the product. Only then can the best preparation of 2-mercaptoacetic acid, 6-amino-, cobalt oxime (1:1) be obtained.

Is there a safety risk of 2-naphthalenesulfonic acid, 6-hydroxy-, potassium salt (1:1)?

2-% carboxyl, 6-amino-, purine (1:1) This substance is related to safety and cannot be ignored. Today's detailed analysis.
2-% carboxyl, 6-amino- binds to purine in a 1:1 state. This combination is in a biochemical system, or involves many key processes. However, its safety risks need to be viewed from multiple perspectives.
In terms of chemical properties, the stability of this structure is crucial. If its chemical bond energy is weak, under specific conditions, it is prone to reactions such as dissociation and rearrangement, or the release of active fragments. If this active fragment enters the biological body, or interacts with biological macromolecules such as proteins, nucleic acids, etc., it will cause structural and functional aberrations. For example, or mismatch with DNA bases, disrupting the transmission and expression of genetic information, which poses a great threat to cell physiological function and genetic stability, is related to the health of individual life, and is a safety hazard.
From the perspective of toxicology, if the substance enters the organism, its metabolic pathway is unknown, which is dangerous. If it cannot be metabolized and excreted normally, it accumulates in the body, or interferes with normal biochemical reactions. Such as competitive inhibition of key enzyme activities, obstruction of metabolic pathways, and physiological dysfunction. Or stimulate an immune response, causing the body's immune system to misjudge as a foreign body, causing allergies, inflammation, etc., damaging the body's tissues and organs, and affecting overall health.
At the environmental level, its stability and degradability in the natural environment need to be investigated. If it is difficult to degrade, it will persist in the ecosystem for a long time, enrich through the food chain, or cause damage to biodiversity and disrupt the ecological balance. For example, it affects the structure and function of microbial communities, and then affects ecological factors such as soil fertility and water quality, which has a profound impact on ecological security.
In summary, 2-% carboxyl, 6-amino-, purine (1:1) or storage safety risks should be evaluated and controlled in all aspects of research and development, use, etc., to ensure biological safety, ecological safety and personal safety.