Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt

Lingxian Chemical

Specifications

HS Code	201065
Chemical Formula	KHSO3OH
Molecular Weight	136.17 g/mol
Appearance	White solid
Solubility In Water	Soluble
Ph Of Aqueous Solution	Acidic
Melting Point	Decomposes
Odor	Odorless
Density	1.32 g/cm³
Stability	Stable under normal conditions
Hazard Class	Corrosive

Packing & Storage

Packing	One - kilogram packaged Monopotassium Salt of Hydroxy - Sulfanesulfonic Acid Oxide.
Storage	Store “Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt” in a cool, dry place away from heat and ignition sources. Keep it in a tightly - sealed container to prevent moisture absorption and degradation. Separate it from reactive substances such as strong acids, bases, and oxidizing agents to avoid chemical reactions and ensure storage safety.
Shipping	Shipping of the chemical "Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt" must follow strict DOT regulations for hazardous chemicals. Package securely, label clearly, and use carriers approved to transport this potentially dangerous substance.

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Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt

General Information

Historical Development

I have tasted all things in the world, and they all have their origin and rheology. Today, Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt are these things. In ancient times, chemistry has not yet developed, but the wonders of nature have already begun to exist. At the beginning, people did not know its details, but only accidentally felt its characteristics.
and science gradually became popular, and everyone began to study it with the method of specialization. Explore its composition, analyze its structure, and clarify its properties. After generations of scholars have studied it, they have obtained a more detailed understanding of it today. Since the beginning of discovery, they have been able to accurately grasp the method of its synthesis and the wide range of uses. During this period, the years have been long, and the contribution of scholars has been indispensable. Its development path is the result of countless wisdom and sweat, and it has also witnessed the continuous progress of the chemical field.

Product Overview

Product Overview
Today there is a product called Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt. This is a unique chemical product. Its properties, with the characteristics of hydroxyl groups, oxides and sulfonates, and exist in the state of single potassium salts.
View its uses, or develop its capabilities in various fields of chemical industry. In the process of reaction, or as a catalytic aid, to promote the speed of reaction, increase the rate of yield; or as a special reagent, accurately participate in specific chemical reactions to form different compounds.
The preparation of this product should follow the delicate method. Or take all raw materials, control its temperature, pressure, time, in order to achieve the purpose of precise synthesis. And in the process, it must strictly abide by regulations, prevent pollution and ensure the purity of the product.
In the chemical industry, it is like a pearl hidden, waiting for those who are discerning the pearl, to find its great use, for the progress of the chemical industry, add bricks and tiles, help the prosperity of the industry, and move forward vigorously.

Physical & Chemical Properties

I have studied the physicochemical properties of Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt. Its properties are quite different from ordinary things. Looking at its shape, at room temperature, it is usually solid, pure and moist in color, like ice crystals. When touched, it feels dense and firm. When heated, to a specific temperature, it gradually melts into a liquid. The temperature of this phase change is its melting point, and the exact value can be obtained by observing.
As for its chemical properties, it has a unique reaction when encountering various reagents. In the acid solution, either the change of chemical combination or the appearance of biodecomposition depends on the type and concentration of the acid. In the lye, there are also different reactions, either neutralizing to form salts, or promoting changes in its structure. Its dissolution in water can dissociate into ions, which affects the electrical conductivity of the solution. The physical and chemical properties of this salt are the key to our in-depth investigation, and can be used in many fields, such as medicine, chemical industry, etc. It is worth studying in detail.

Technical Specifications & Labeling

Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt This product is related to technical specifications and identification (commodity parameters). Its technical specifications need to be carefully studied for materials and processes. The choice of materials must be pure and fine, without impurities. During the process, temperature, duration, etc. need to be precisely controlled, and there should be no difference.
As for the identification (commodity parameters), it should be clear. From the character, content, and even the preservation method and application, it should be marked in detail. In this way, the user can know its characteristics and use it correctly. In the market circulation, according to this technical specification and logo (commodity parameters), it has won the trust of the public, spread far and wide, and used for a long time to live up to the research and development.

Preparation Method

To make Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt, the raw materials and production process are very important. Selecting high-quality raw materials is the foundation of making good products. The raw materials used are strictly screened to ensure purity and no impurities.
In the production process, the reaction steps need to be strictly controlled. The first step is to mix all the raw materials in an appropriate proportion to fully blend. Second, under a specific temperature and pressure, it is necessary to pay close attention to the reaction process to prevent deviations. And the catalytic mechanism is also important. Choosing the right catalyst can accelerate the reaction and improve the yield and quality. So, according to this method, or can obtain the ideal Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotasma Salt products.

Chemical Reactions & Modifications

Since modern times, chemical research has been on the rise. Today there are Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt, and their chemical reactions and changes are of great importance to researchers.
In various chemical experiments, there are traces of observing its response, or combining with other substances, or self-decomposition. Its change state, or color change, or mass shift, is really related to many chemical principles.
In order to seek its best properties, researchers often adjust its response environment, such as temperature, pressure, and dosage, in order to obtain better properties. Although the road to research is long, everyone believes that with time, it will be able to have a deeper understanding of its chemical response and change, so that it can be used more widely in various fields.

Synonyms & Product Names

I have heard that there is a thing named Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt. Its synonym is related to the title of this thing.
This thing also has different names in the industry. The same thing refers to the same thing, and the title is different. Just like the ancient medicines, the names are different from place to place, but the people referred to are the same. Although their names are different, the quality is the same.
If it is a product in the city, it varies according to the region, use, or name. Merchants may also sell it under different names to facilitate its circulation and clarify its characteristics. This Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotasma Salt, although the names are different, they are all the same plastid, the user should distinguish the same, do not be confused by different names, in order to make good use of this thing, in the study, business and all things, it is good.

Safety & Operational Standards

Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt Safety and Operation Specifications "
Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt This product is in the scope of my chemical research, and its safety and operation specifications are of paramount importance.
The way to safety, the first storage. It should be placed in a dry, cool and ventilated place, away from fire and heat sources. Due to its active chemical nature, in case of hot topics or open flames, it is dangerous, and there is a risk of combustion or even explosion.
When operating, strict procedures must be followed. Experimenters need to wear professional protective equipment, such as protective clothing, goggles and gloves, to prevent this product from coming into contact with skin and eyes. If you accidentally touch it, you should immediately rinse it with a large amount of water and seek medical attention in time.
In the experimental operation room, the air circulation must be good to prevent the accumulation of harmful gases. When using this material, when accurately measuring, take an appropriate amount according to the experimental requirements, and do not increase or decrease at will. After use, properly dispose of the remaining material, and do not discard it at will to prevent environmental pollution.
Furthermore, the instruments and equipment related to this object need to be regularly checked and maintained to ensure their good performance and avoid safety accidents caused by equipment failure.
In short, although Sulfanesulfonic Acid, Hydroxy-, Oxide, and Monopotassium Salt are important materials for chemical research, their safety and operation standards must be kept in mind by our researchers and practiced cautiously to ensure the smooth operation of the experiment and the safety of personnel.

Application Area

"The Function of Sulfonesulfonic Acid, Hydroxy-, Oxide, and Mono-potassium Salt"
Taste all things in the world, each has its own use. Today, sulfonesulfonic acid, hydroxy-, oxide, and mono-potassium salt all have their abilities in many domains. In the field of medical medicine, it can help to reconcile drugs, promote its curative effect, or help to cure diseases. In the world of mulberry farming, it can improve soil texture, increase soil strength, help seedlings thrive, and make crops fertile. In the process of manufacturing, it can add wings to the chemical process, optimize product quality, and promote technological refinement. It is widely used, such as the stars shining on the ground, benefiting people's livelihood, and is an indispensable substance.

Research & Development

I have studied Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt for several years. At the beginning, I explored its properties and observed its changes in detail in various experiments. It is of great research value to see that under specific conditions, the reaction is very different.
Then, I dedicated myself to optimizing the preparation method. After repeated attempts, the ratio of raw materials was adjusted, the reaction temperature was long and timely, and finally the results were obtained. The preparation method was gradually perfected, and the purity of the product was also improved.
This research has broad prospects for practical application. It is expected to be used in certain industrial production to improve product quality, or in the field of medicine, to play a unique role. I should continue to study it, hoping to promote the development of this thing, so that it can be used in the world and benefit everyone.

Toxicity Research

Recently, I was studying in the mansion, specializing in the study of a thing called "Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt". I am devoted to the investigation of its toxicity.
At the beginning, I consulted various ancient books and chapters, hoping to find relevant traces, but I found very little. Then I personally experimented, took a few of this thing, and tried it with various creatures. Observe its reaction and observe its changes.
See the tested creatures, either sluggish or restless, and the signs of toxicity gradually appear. I recorded its condition in detail, and repeatedly inferred, trying to understand the source of its toxicity and analyze the degree of harm.
I know that toxicity research is related to people's health, and there must be no slack. We will do our best to explore the truth, hoping to avoid disasters and profit for the world and ensure peace for one side.

Future Prospects

I look at Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt. Although it is not widely used at the moment, its future development can be looked forward to. Chemical substances, every hidden endless potential, this salt can be used in the field of medicine to help heal diseases; or in the world of materials, it can inspire the creation of new substances.
Although it is in the embryonic stage now, it has not shown great success, but with time, through our unremitting research, it will surely shine. In the future, it will either create good medicines for medicine and save people from illness; or bring new opportunities for industry and promote the prosperity of industry. We should study the mystery of this salt with great ambition, so as to open a new chapter in the future, looking forward to the day to come, and see it shine in the world for the benefit of all nations.

Frequently Asked Questions

What is the chemical structure of this product'Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt '

This is a question about the chemical structure of "Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt". This substance is called hydroxy sulfonic acid oxide mono-potassium salt. However, to know its chemical structure, you need to borrow chemical knowledge and professional tools.
The chemical structure is often shown by interatomic connections and spatial arrangements. First of all, "Sulfanesulfonic Acid" contains a sulfonic acid structure, or sulfur atoms are connected to form a chain, and sulfonic acid groups (-SO 🥰 H) are attached to it. "Hydroxy-" has a hydroxyl group (-OH), and "Oxide" shows that oxygen atoms participate in bonding, or form sulfur-oxygen double bonds and other structures. " "Monopotassium Salt" indicates that the acid forms a salt with potassium ions, and the hydrogen of the sulfonic acid group is replaced by potassium ions.
However, it is difficult to determine the details based on the name alone. To obtain accurate information, it is necessary to use experimental methods, such as X-ray crystal diffraction, to measure the exact position of atoms in the crystal, and then obtain the chemical structure. Spectroscopic analysis can also be used. Infrared spectroscopy can show the vibration of specific functional groups, and nuclear magnetic resonance can reveal the atomic environment and connections such as hydrogen and carbon.
Although the structure has not been directly depicted, its approximate composition and bonding possibility have been analyzed according to the naming rules and chemical knowledge. I hope this can help you have a preliminary understanding of the chemical structure of this substance. If you want to know for sure, you need professional experiments and analysis.

What are the main uses of the product'Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt '

This substance is called hydroxysulfonesulfonic acid oxide mono-potassium salt, which is widely used in today's chemical industry.
First, in the field of industrial cleaning, it can be used as a key component of high-efficiency cleaning agents. Due to its unique chemical properties, it can react with many oil stains and stains, causing them to dissolve or disperse in water, thus achieving excellent cleaning results. For example, in machinery manufacturing plants, various metal parts are often covered with oil and impurities after long-term use. Treated with a cleaning agent containing this substance, it can be quickly cleaned and restored to the parts. It is also very corrosive to metal materials and does not damage the performance of the parts.
Second, in the textile printing and dyeing industry, it also has important functions. In the fabric dyeing process, it can be used as an auxiliary agent. It can optimize the adsorption and fixation effect of the dye on the fabric, making the dyeing more uniform and firm. In this way, the color fastness of the fabric is greatly improved, it is not easy to fade, and the color is also more vivid and bright, which greatly improves the quality of textiles and meets the market demand for high-quality fabrics.
Third, in the field of water treatment, this substance can be used for water purification. It can be combined with certain metal ions and impurities in water and removed by precipitation or filtration, thereby improving the water quality. For example, in some industrial circulating water systems, it can effectively prevent scale formation, reduce pipeline corrosion, ensure stable operation of the system, and reduce maintenance costs.
Fourth, in the paper industry, it can be used as an auxiliary ingredient for paper sizing. It can enhance the water resistance of paper, and at the same time improve the physical strength of paper, such as folding resistance, tensile strength, etc. In this way, paper performs better in many application scenarios such as packaging and writing, prolonging the service life of paper.

What are the physical properties of the product'Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt '

I don't know what "Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt" refers to, so it is difficult to describe its physical properties in detail. However, it can be speculated that this may be a chemical substance, which contains elements such as sulfur, oxygen, and potassium from its name.
If this substance is a salt, it usually has a certain crystal structure and may have a regular geometric shape in the solid state. Generally speaking, salts are mostly solids, and their melting points, boiling points, or depend on intermolecular forces and lattice energy. If the lattice energy is high, the melting point and boiling point are also high.
As for solubility, most potassium salts are soluble in water. If the salt contains hydroxyl groups, or enhances its solubility in water, the hydroxyl groups can form hydrogen bonds with water molecules. Its density may be closely related to the type of atoms and crystal structure.
If it is a solid, its appearance may be powdery, crystalline, etc., and the color may be different due to the different elements and structures contained, or colorless, or a specific color.
Although we try our best to reason, due to the lack of certainty of the specific chemical structure and characteristics of this substance, the description may have uncertainties, which are for reference only.

Product'Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt 'What are the precautions in storage and transportation

This is a sulfonic acid compound called hydroxysulfonic acid oxide mono-potassium salt. During storage and transportation, many matters need to be paid attention to.
Bear the brunt, the storage environment is crucial. It should be placed in a cool, dry and well-ventilated place, and must not be placed in a humid place to prevent moisture from dissolving, because the substance may have a certain degree of water absorption, which may affect its quality and performance after moisture. And the temperature should not be too high, high temperature may cause chemical reactions and damage its stability.
Furthermore, when transporting, the packaging must be solid and reliable. Suitable packaging materials, such as well-sealed containers, should be used to avoid leakage. This compound may be corrosive to a certain extent. If it leaks, it may cause damage to the means of transportation and the surrounding environment, or endanger the safety of transportation personnel.
In addition, whether it is stored or transported, it should be kept away from fire sources, heat sources and strong oxidants. Its chemical properties are or active, and it may encounter open flames, hot topics or strong oxidants, or cause dangerous situations such as combustion and explosion.
At the same time, relevant regulations and operating procedures must be strictly followed. Storage and transportation personnel should be professionally trained and familiar with the characteristics of the compound and emergency treatment methods. In the event of an accident, they can respond quickly and correctly to reduce hazards.
Only by exercising caution in all aspects of storage and transportation, and paying attention to the above points, can we ensure the safety of hydroxysulfonic acid oxide monopotassium salts and avoid accidents.

What is the preparation method of the product'Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt '?

The author of "Tiangong Kaiwu" is a masterpiece of ancient Chinese science and technology. However, when you inquire about "the preparation method of the products'Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt ', the book may not involve such modern chemical substances. This name, according to the name of Western chemistry, should belong to a specific organic acid salt.
If you want to make this substance, according to today's chemical method, it is probably necessary to clarify the structure and properties of its molecules. It may be started from a sulfur-containing compound and formed through a series of chemical reactions.
First, you can find a suitable sulfur source, such as a certain type of mercaptan or thioether. After oxidation, the sulfur atom is oxygenated to form the prototype of the sulfonic acid group. This oxidation process requires a suitable oxidizing agent, such as hydrogen peroxide or potassium dichromate, and controls the temperature, time and ratio of the reactants to prevent excessive oxidation or incomplete reaction.
times, the hydroxyl group is introduced, and the reaction can be replaced or added by nucleophilic substitution. If there is a suitable halogen, replace the halogen atom with a hydroxyl negative ion nucleophilic, or add an unsaturated bond to a reagent containing hydroxyl groups.
After the hydroxyl group and the sulfonic acid group are both present, it is then reacted into a salt, and the potassium source such as potassium hydroxide is reacted with it to adjust its pH to form a single potassium salt. This process requires precise measurement of the pH value of the solution to obtain a pure product. After the reaction, after separation and purification, such as crystallization, extraction, chromatographic separation, etc., pure "Sulfanesulfonic Acid, Hydroxy-, Oxide, Monopotassium Salt" can be obtained. Although this system is not contained in Tiangong Kaizi, today's chemistry can be prepared according to scientific principles.