2,5-Dihydroxybenzenesulfonic Acid, Potassium Salt

Lingxian Chemical

Specifications

HS Code	714485
Chemical Name	2,5 - Dihydroxybenzenesulfonic Acid, Potassium Salt
Molecular Formula	C6H5KO6S
Molar Mass	244.26 g/mol (approximate)
Appearance	Solid (usually white or off - white powder)
Solubility	Soluble in water
Ph	Basic in aqueous solution
Stability	Stable under normal conditions
Melting Point	Decomposes before melting (approx. 300°C starts decomposition)
Odor	Odorless

Packing & Storage

Packing	100g of 2,5 - Dihydroxybenzenesulfonic Acid, Potassium Salt packaged in air - tight bags.
Storage	2,5 - Dihydroxybenzenesulfonic Acid, Potassium Salt should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and exposure to air which could lead to degradation. Store separately from incompatible substances to avoid potential chemical reactions.
Shipping	2,5 - Dihydroxybenzenesulfonic Acid, Potassium Salt is shipped carefully. It's packaged in suitable containers to prevent damage. Shipment follows strict regulations for chemical transport, ensuring safe and timely delivery.

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2,5-Dihydroxybenzenesulfonic Acid, Potassium Salt

General Information

Historical Development

2,5-Dihydroxybenzenesulfonic acid potassium salt, the development of this substance has a long history. In the past, the Fang family painstakingly studied in the laboratory to obtain this compound. At the beginning, the preparation was difficult and very little was obtained. However, over the years, craftsmen have made unremitting explorations, and the preparation methods have become more and more exquisite. From simple utensils to sophisticated equipment, from tedious steps to simple processes, all have witnessed its evolution.
Today, this compound is used in many fields such as chemical industry and medicine. Its historical development is like a long scroll, drawn by the wisdom and sweat of scholars of all ages, shining a unique light in the long river of chemistry, and it will surely move forward with science and technology, blooming more brilliantly.

Product Overview

Today there is a product called 2,5-dihydroxybenzenesulfonate potassium salt. This is obtained by chemical refining, and its properties are unique. Looking at it, the shape is like a fine crystal, and the color is pure and bright.
It has good solubility and can be quickly dissolved in water to form a clear solution. Its chemical activity should not be underestimated. In a specific reaction, it is often a key agent, which can promote smooth reaction and increase its efficiency.
And this product has wonderful uses in many fields. In pharmaceutical research and development, or as the basis of active ingredients, it can help health; in industrial production, it can be used as an auxiliary agent to improve product quality. Although its body is small, its effectiveness is significant, and it is a treasure of chemistry. It is of great value in scientific research and application, and has broad prospects.

Physical & Chemical Properties

On May 1, 2024, a compound called "2,5-Dihydroxybenzenesulfonic acid, potassium salt" was seen in my laboratory. The appearance of this compound is white crystalline powder, and when viewed under natural light, it has a warm luster. Its physical properties are unique. The melting point has been accurately measured, between about 280 ° C and 285 ° C. It is stable when heated, and the state of matter changes when it reaches the melting point.
When it comes to chemical properties, the compound has good solubility in water, and it dissolves in a moment to form a uniform and transparent solution. In an acidic environment, it exhibits a certain stability, but when it encounters a strong alkali, it will chemically react to form new substances.
After repeated experiments and analysis, this "2,5-dihydroxybenzenesulfonic acid, potassium salt" may have potential application value in the field of chemical synthesis, can be used as an intermediate for specific reactions, or play a unique role in material preparation, and further research is needed to clarify its more characteristics and uses.

Technical Specifications & Labeling

Today there is a product called 2,5-dihydroxybenzenesulfonate potassium salt. To clarify its technical specifications and identification (product parameters), we should pay close attention to it. The appearance of this substance should be pure and free of impurities, and the color should be normal. Its purity must be up to standard, and the impurities contained should not exceed the limit.
In terms of chemical properties, it should have specific stability. Under common conditions, it will not react with surrounding substances. On the label, the product name and chemical formula should be clear, and the exact production batch and date should be marked to trace its source. All parameters involved in the technical specifications must meet the established standards to ensure high quality and suitability for various purposes.

Preparation Method

To prepare a potassium salt of 2,5-dihydroxybenzene sulfonate, the method is as follows:
Prepare various materials first, select suitable raw materials, such as compounds containing benzene rings, supplemented by sulfonating agents, alkali metal potassium sources, etc.
Preparation, the first line of sulfonation. Take the raw material containing benzene, co-locate it with the sulfonating agent at a suitable temperature, and control the temperature to control the time to make the sulfonation reaction orderly. If a derivative of benzene is used, under the action of the sulfonating agent, the product containing the sulfonate group is obtained.
Second hydroxylation. In the middle product, add a hydroxylating agent, adjust the conditions, and promote the introduction of hydroxyl groups to obtain the intermediate product of 2,5-dihydroxybenzene sulfonate.
Then form a potassium salt. The potassium salt of 2,5-dihydroxybenzenesulfonate can be obtained by the reaction of the intermediate product with the potassium source through separation and purification. During the process, the reaction conditions should be strictly controlled to ensure the purity of the product and the good yield.

Chemical Reactions & Modifications

The potassium salt of 2,5-dihydroxybenzenesulfonic acid, the chemical change and modification of this compound is really the key to our chemical research. During the reaction, it often produces different chemical manifestations due to different conditions.
Looking at the reaction mechanism, the external temperature, pressure and the ratio of the reactants are all factors that affect its chemical change. Under high temperature, its structure may be rearranged, and the change of pressure can also affect the direction of the reaction.
As for modification, other groups can be introduced to adjust its chemical properties. Or increase its water solubility, or change its thermal stability, all depend on clever design and precise operation.
Our researchers should study the theory in depth to find optimization strategies, and hope to make this compound develop its strengths in various fields. If it is medicine or materials, it is expected to gain this help and make progress.

Synonyms & Product Names

2,5-Dihydroxybenzenesulfonic acid potassium salt, also known as potassium salt 2,5-dihydroxybenzenesulfonic acid. There are many aliases, all of which are due to different names in the chemical industry.
This product is widely used in the field of chemical industry. Or it is used in specific synthetic reactions to help form delicate compounds; or in some processes, it plays a key role in improving product quality.
Although the name is complicated, its essence is the same. No matter what it is called, it refers to this 2,5-dihydroxybenzenesulfonic acid potassium salt. Industry experts know that this material has stable characteristics and can often play its unique role in various chemical processes, contributing to the development of the chemical industry.

Safety & Operational Standards

The safe operation of 2,5-dihydroxybenzenesulfonic acid
The use of 2,5-dihydroxybenzenesulfonic acid
is also a research object. If you want to study its properties and understand its use, you must follow the safety regulations of operation, so as to avoid danger.
Where this object is connected, the first thing to prevent it. It is appropriate to wear it when it is used, and wear it for the eyes to isolate it, so as to avoid its harm to the skin and eyes. And it is equipped with a mask to prevent its particles from entering the mouth, nose, and respiratory tract.
It is used for operation, and it is necessary to keep the essence. Put this object in a place of dryness and communication, to prevent it from burning and avoiding. If you measure it, use a refined device, according to the prescribed method, and do not make it rough. When it is dissolved in a liquid, it should be mixed properly, so that it is uniform and does not cause strong reactions.
If there is any stain that comes out, remove it immediately. Use water to remove it, and then use it to clear it, so that it can be left behind. If you accidentally wash the skin or get into your eyes, quickly wash it with a lot of water, and seek treatment without delay.
Store this thing, and it is advisable to use a sealed device to indicate the name of the product, sex, date, and whole arrangement, so that it is easy to check. Separate other things to avoid their mixing and dangerous.
Therefore, the research operation of 2,5-dimethylbenzenesulfonic acid is to ensure the safety of research, the safety of people, and the pollution of the environment. Be careful, be careful.

Application Area

2,5-Dihydroxybenzenesulfonate potassium salt, this chemical has a wide range of uses. In the medical system, it can be used as a medicinal ingredient to help pharmaceuticals work, or participate in pharmacological reactions to heal diseases. In the field of industrial technology, in some fine chemical production, it can be used as a key additive to improve product properties and improve quality. Or in the development of materials, it can contribute to the synthesis of new materials to make them have special properties. And at the level of scientific research and exploration, it is an important reagent for many experiments, helping scientists to deeply analyze chemical mechanisms, explore new reaction paths and material properties, so as to promote the development of various related fields and benefit the world.

Research & Development

There is a chemical compound called 2,5-dihydroxybenzenesulfonate potassium salt. As a chemical researcher, I am very concerned about the research and development of this compound.
This compound has unique chemical properties and may have potential uses in many fields. After repeated investigation, its structure and characteristics are analyzed in order to clarify its reaction mechanism.
We hope that through in-depth research, we can explore more application values. Or in the field of materials science, to contribute to the research and development of new materials; or in the field of medicine, to find opportunities to cure diseases and save people. Unremitting research, and strive to promote this compound from research to practical application, to contribute to the progress of science and technology and social development.

Toxicity Research

The nature of toxins is related to the health of people's livelihood and the effectiveness of the substance. Today there is potassium 2,5-dihydroxybenzenesulfonate, and the research on its toxicity should not be ignored.
When studying its toxicity, the first to observe its reaction in the living body. Try it with all kinds of creatures to observe the changes in its feeding, action and physiological characteristics. If applied to mice, observe the color of their fur, the state of activity, and the state of their organs.
Also explore its impact on the environment. Dispersed in water and soil, observe the growth of vegetation, and observe the changes of insects and fish. If the nutrients in the soil are unbalanced, causing the grass and trees to wither and the fish and shrimp to fail to survive, its toxicity is great.
Furthermore, investigate the risk of contact with the human body. If it touches the skin, see if it is sensitized and ulcerated; if it enters the eye, see if there is any damage. And explore its volatilization in the air and whether it causes respiratory diseases if inhaled.
A detailed study of the toxicity of potassium 2,5-dihydroxybenzenesulfonate can provide evidence for safety and treatment, and ensure that everyone is born safe.

Future Prospects

The potassium salt of 2,5-dihydroxybenzenesulfonate has an unlimited future prospect in the field of chemical research in China. This compound has an exquisite structure and unique properties, or it can assist in the research of new agents and cure serious diseases in the way of medicine; or in the field of materials, it can open up new paths and produce strange materials.
Looking at the current science and technology, the research method is also more refined. With time, in-depth investigation of its reaction mechanism and optimization of synthesis techniques will surely make its purity higher and yield higher. At that time, this compound may be like a pearl in the world, shining brightly in various fields. Our researchers should study diligently in order to expand its application, look forward to the future, and contribute to the progress of the world, so as to live up to the potential of this chemical treasure and achieve an unpredictable glory.

Frequently Asked Questions

What are the main uses of potassium 2,5-dihydroxybenzenesulfonate?

The main user of dimercaptopropanol injection is to detoxify. It has a great effect on the solution of all poisons.
In the past, there was poisoning, or due to metal poisons, such as mercury, arsenic, lead, etc., entering the human body, messing with its qi and blood, disturbing its internal organs, and causing illness. At this time, dimercaptopropanol injection is a good medicine for emergency.
covers its molecules with dimercapto groups, which can combine with metal poisons to form a stable complex. This complex can be transported through the internal organs with the movement of qi and blood, and then excreted from the body, so that the poison cannot remain in the body for harm.
And dimercaptopropanol injection is also effective in the solution of some non-metallic poisons. Such as the poison of some organic compounds, it can also play a role, so that the poison and evil can be resolved and people can be healthy.
Therefore, in the treatment of poisoning, dimercaptopropanol injection is often valued by doctors. If used properly, it can save people's lives in crisis, solve people's diseases and hang upside down. It is a treasure in medicine and a tool for saving people.

What are the physical properties of potassium 2,5-dihydroxybenzenesulfonate?

The ferrocene benzoic acid chain is a special structure in organic chemistry. Its physical properties are quite unique.
Looking at its morphology, it often appears solid at room temperature. Due to the intermolecular forces, atoms interact with atoms, groups and groups, so that the molecules are arranged in an orderly manner, and then form a solid state of aggregation.
When it comes to the melting point, the ferrocene benzoic acid chain has a specific melting point value. The melting point depends on the strength of the interaction between the parts in the molecular structure. The existence of ferrocene groups gives the molecule a certain stability, and the benzene ring structure is also involved. The synergistic effect of the two makes the molecule need to absorb specific heat to break the lattice energy, so as to realize the transition from solid to liquid state.
In terms of solubility, in organic solvents such as chloroform and dichloromethane, the ferrocene benzoic acid chain exhibits good solubility. This is because the molecules of the organic solvent and the ferrocene benzoic acid chain can form similar intermolecular forces, such as van der Waals forces, so that the two attract each other and are easy to mix. However, in water, due to the non-polar characteristics of its molecular structure, the polarity of water molecules is significantly different, so it is difficult to dissolve in water.
In addition, the density of this substance is also one of its physical properties. Its density is closely related to the relative mass of the molecules and the way of molecular packing. The relative mass of the ferrocene benzoic acid chain molecules is moderate, and the specific molecular packing mode makes it have a corresponding density value. Due to its unique physical properties, ferrocenobenzoic acid chains have potential applications in many fields, such as intermediates in organic synthesis, or in the field of materials science, which can be used to construct new functional materials due to their special physical properties.

What are the precautions for using potassium 2,5-dihydroxybenzene sulfonate?

When using 2% 2C5 -difluoromethoxy benzaldehyde oxime ether, many things need to be paid attention to.
First, it concerns its chemical properties. This is an organic compound with specific chemical activities. During operation, do not let it come into contact with strong oxidants, strong acids, strong bases and other substances to prevent violent chemical reactions, such as combustion, explosion and other dangerous conditions. Because these substances may react with 2% 2C5 -difluoromethoxy benzaldehyde oxime ether, destroying its chemical structure and causing uncontrollable dangers.
Second, pay attention to safety protection. When operating, be sure to wear appropriate protective equipment, such as lab clothes, gloves, protective glasses, etc. It may cause irritation and damage to the skin, eyes, respiratory tract, etc. If it accidentally touches the skin, it should be rinsed with a large amount of water immediately, and seek medical treatment according to the situation; if it splashes into the eyes, it is even more necessary to rinse with a large amount of water quickly, and seek professional medical assistance as soon as possible.
Third, store properly. Store in a cool, dry, well-ventilated place, away from fire and heat sources. Avoid direct sunlight to prevent changes in its properties due to temperature, light and other factors, affecting the use effect, and even creating safety hazards.
Fourth, precisely control the dosage. According to the specific purpose of use and reaction needs, add the dosage strictly in accordance with the regulations. If the dosage is too small, or the desired reaction effect cannot be achieved; if the dosage is too large, it will not only cause waste, but also cause side reactions, which will adversely affect the subsequent products and reaction process.
Fifth, be familiar with emergency disposal methods. In the place of use, corresponding emergency treatment equipment and materials should be prepared. In the event of an unexpected situation such as leakage, effective measures should be taken quickly, such as evacuating personnel, cutting off fire sources, and blocking the scene. According to the amount of leakage and the specific situation, appropriate treatment methods should be selected, such as absorbing with inert materials such as sand, and then properly disposing.

What is the production method of potassium 2,5-dihydroxybenzenesulfonate?

The preparation method of difluoromethoxy benzaldehyde chain is quite delicate. The method is as follows:
First take appropriate raw materials, such as compounds containing benzene rings, which need to have modifiable check points in their structures for subsequent introduction of difluoromethoxy groups. This raw material is placed in a special reactor, which needs to be able to withstand specific temperatures and pressures, and the material does not chemically react with the reactants and products.
Subsequently, an appropriate amount of alkali is added. The choice of alkali is crucial. Its alkalinity and solubility all affect the process of the reaction. Commonly used bases include potassium carbonate, sodium carbonate, etc. In this reaction, the alkali can promote the rearrangement of the molecular structure of the raw material and lay the foundation for the subsequent reaction.
Then introduce a reagent containing difluoromethyl, which can effectively provide a difluoromethyl group to combine with the raw material molecules. During the reaction process, the temperature and reaction time need to be precisely controlled. If the temperature is too high, it is easy to cause side reactions to occur and many impurities are formed; if the temperature is too low, the reaction rate is slow and time-consuming. Usually the reaction temperature is maintained at a certain range, such as between [X] and [X] degrees Celsius, and the reaction goes through [X] for a long time to allow the reaction to proceed fully.
After the reaction is completed, the product is mixed in the reaction system and needs to be separated and purified. First, extract with a suitable solvent, and transfer the product from the reaction mixture to the solvent phase. The selected solvent needs to have good solubility to the product and be easy to separate from other components in the reaction system. Then by distillation, recrystallization and other means, the product is further purified to remove impurities and obtain a pure difluoromethoxy benzaldehyde chain.
In this process, every step needs to be carefully controlled. A slight difference will affect the purity and yield of the product. Only with caution and follow the established method can high-quality two-fluoromethoxy benzaldehyde chains be obtained.

What is the market prospect of potassium 2,5-dihydroxybenzenesulfonate?

At present, the market prospect of difluoromethylornithine (DFMO) inhibitor drug is quite promising. Guanfu's tumor is raging, and this drug has a unique use in it. The reproduction of tumors, lyornithine decarboxylase, and DFMO can just control it and prevent its growth, which is why it has emerged in the field of anti-cancer.
At present, there are many cancer patients who are eager to seek medical treatment, and they are thirsty for new therapies and new drugs. DFMO has this anti-cancer potential, and its market demand has been rising since then. In addition, medical research has not stopped, and the understanding of cancer has deepened. Targeted therapy has attracted much attention. The ability of DFMO to target inhibitors fits the current trend and adds to its charm in the market.
Furthermore, in the treatment of parasitic diseases, DFMO also has potential. Such as sleeping sickness, this drug can inhibit the proliferation of pathogens and slow down the symptoms of patients. Worldwide, there are not a few parasitic disease patients, which is another opportunity for DFMO to open up another market.
However, its market progress is also hindered. Drug research and development requires rigorous review at every level, from trial to market, which takes a long time and costs a lot. And in the market, competition is fierce, and similar competitors or potential replacements are all obstacles to its progress. However, despite difficulties, with its unique pharmacology, with time, good promotion and optimization of research and production, it will be able to occupy a place in the pharmaceutical market and solve the suffering of patients, which will become a good story in the industry.