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Home Products Iron(3+) Potassium 5,6-Diaminonaphthalene-1,3-Disulfonate (1:3:3)

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Iron(3+) Potassium 5,6-Diaminonaphthalene-1,3-Disulfonate (1:3:3)

Specifications

HS Code	639700
Chemical Formula	FeK3(C10H8N2O6S2)3
Molecular Weight	1058.81 g/mol
Appearance	usually a solid
Color	varies, often depending on purity and form
Solubility In Water	may have some solubility characteristics
Solubility In Organic Solvents	specific solubility properties in organic solvents
Melting Point	distinct melting point value
Boiling Point	if applicable, its boiling point
Density	has a certain density value
Stability	under certain conditions, its stability details
Reactivity	reactivity with common reagents

As an accredited Iron(3+) Potassium 5,6-Diaminonaphthalene-1,3-Disulfonate (1:3:3) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Package contains 500g of Iron(3+) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate.
Shipping	Iron(III) Potassium 5,6 - Diaminonaphthalene -1,3 - Disulfonate (1:3:3) is shipped in containers designed to prevent spills. Packages are labeled with chemical details and safety warnings, transported with care following hazardous chemical shipping regulations.
Storage	Store Iron(3+) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3) in a cool, dry place away from heat sources and direct sunlight. Keep it in a well - sealed container to prevent exposure to moisture and air, as these could potentially affect its chemical stability. Store away from incompatible substances to avoid possible reactions.

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Certification & Compliance

Iron(3+) Potassium 5,6-Diaminonaphthalene-1,3-Disulfonate (1:3:3) is manufactured under an ISO 9001 quality system and complies with relevant regulatory requirements.
COA, SDS/MSDS, and related certificates are available upon request. For certificate requests or inquiries, contact: sales7@alchemist-chem.com.

Iron(3+) Potassium 5,6-Diaminonaphthalene-1,3-Disulfonate (1:3:3)

General Information

Historical Development

Those who have tasted the ancient knowledge of chemical engineering, in the study of things, have exhausted their efforts. Today there is Iron (3 +) Potassium 5, 6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3). This thing has its beginning, and everyone has not recognized its nature. The researcher has been looking at the subtleties and analyzing the wonders for a long time. At the beginning, I only knew a little about it, but I kept exploring it. With the passage of the sun and the moon, I gradually understand its structure, and I know its response to all things. From ignorance and clarity, from the shallow to the profound, every step is soaked in the efforts of the researcher. With the passage of time, its understanding has advanced, and its use has become increasingly widespread. It is either applied to work or used for learning to contribute to the world. This is the historical development of its objects, which has been hidden and revealed, and has become the grand view of today.

Product Overview

A chemical named Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3). This is the product of a chemical combination, which is made up of iron ions (trivalent), potassium ions and 5,6 - diaminonaphthalene - 1,3 - disulfonate in a ratio of 1:3:3.
Looking at its properties, this compound has unique physical and chemical characteristics. Under specific conditions, it has good stability and can resist the interference of some external factors. Its structure is exquisite, and the interaction between molecules is orderly, giving this substance special functions.
On its use, or play a key role in specific chemical fields. It can be used as a catalyst for special reactions to accelerate the reaction process; or in materials science, to assist in the synthesis of new materials with specific properties, contributing to the development of related fields.

Physical & Chemical Properties

The physical properties and chemical properties of potassium iron (ⅲ) -5,6-diaminonaphthalene-1,3-disulfonate (1:3:3) are related to this compound, and I will investigate in detail. Its physical properties, from the perspective of normal temperature, appear in the state of [specific color], either as a powder or as a crystal, with a specific crystal structure. Measuring its density gives [X] g/cm ³, which is related to the ratio of mass to volume and also affects its distribution in the medium. Its solubility varies in common solvents such as water and ethanol, and the solubility in [a solvent] is [X] g/L, which is related to the polar groups in the molecular structure.
In terms of its chemical properties, iron (ⅲ) ions have certain oxidation properties, and under suitable conditions, they can undergo oxidation-reduction reactions with reducing agents. The potassium part of 5,6-diaminonaphthalene-1,3-disulfonate can participate in acid-base reactions, complexation reactions, etc. because it contains amino groups and sulfonic acid groups. Its chemical stability is good in common environments, and its structure may change under extreme conditions such as strong acid, strong base or high temperature. The unique physicochemical properties of this compound lay the foundation for its application in many fields.

Technical Specifications & Labeling

The technical specifications and identification (product parameters) of Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3) are related to the technical specifications of this compound, and its chemical composition and structural characteristics need to be detailed. Its stoichiometric ratio is 1:3:3, which is a key parameter and is related to product performance.
In terms of identification, the ingredients should be clearly marked so that the user can understand. In the technical specifications, the purity standard needs to be defined, and the impurity content should be strictly controlled. The synthesis of this compound requires strict reaction conditions, and the temperature, pressure and reaction time must be precisely controlled to ensure that the product meets the specifications. And the preparation process should follow the relevant chemical procedures to ensure the uniform and stable product quality. In this way, the technical specifications and labeling requirements of the product can be met to meet the needs of practical applications.

Preparation Method

To make Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3), first choose the raw materials carefully. Choose pure iron salts to ensure the purity of iron ions; choose high-quality potassium salts, preferably with high purity. In the reaction step, first mix the iron salt with an appropriate amount of solvent and slowly heat it to fully dissolve and stabilize the iron ions. At the same time, carefully weigh the 5,6 - diaminonaphthalene - 1,3 - disulfonate and add it to the solution containing potassium salts in proportion, stir well, so that all things touch. When the two solutions are mixed, control the reaction temperature and rate, and do not overreact. When the reaction is complete, let stand and precipitate crystals. In order to obtain high-purity products, recrystallization can be used to remove impurities. The catalytic mechanism can add an appropriate amount of specific catalysts to accelerate the reaction process, shorten the reaction time, and improve the purity and yield of the product. Finally, high-quality Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3).

Chemical Reactions & Modifications

Taste the wonders of chemistry, with countless changes, related to Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3) This compound, its chemical reaction and modification are really important to study.
The reaction may vary depending on the environment or the change of reagents. Under suitable conditions, iron ions and other phases merge, or generate new substances. This change is subtle and requires caution. As for modification, it can be done by adjusting the ratio of raw materials and changing the temperature of the reaction.
Ji Neng uses ancient methods and modern techniques to understand the mechanism of its reaction and improve its modification techniques, so that this compound can play a greater role in industry and scientific research, and is useful for the progress of chemistry.

Synonyms & Product Names

Today there is a thing called Iron (3 +) Potassium 5, 6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3). Its unique nature is quite useful in the field of chemistry. The synonyms and trade names of this thing are also for us to study in detail.
The synonyms of husband are used in different words to express the same quality. There are different titles depending on the region or the school of thought. If the trade name is used, the unique name taken by the merchant to sell the product will be eye-catching.
This Iron (3 +) Potassium 5, 6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3), or another name to meet the needs of all parties. Its trade name must also contain the ingenuity of the merchant in recognition of its excellence. We chemical researchers, when distinguishing its synonyms and trade names, can be used in experiments and applications without the risk of misuse, so that we can improve our knowledge and improve our skills.

Safety & Operational Standards

Today there is a thing called Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3), which is related to the safety and operation standards of this thing, and must not be ignored.
When taking it, you must clean your hands and face, and wear clean clothes to prevent fouling. The hand holding the object must be steady and not tremble, so that the amount is accurate. And the place where the operation is located should be dry and well ventilated, so as not to disturb the moisture and filth.
If this thing accidentally touches the skin, immediately rinse it slowly with water and rinse it for a long time until the skin feels no discomfort. If it comes into your eyes, do not rub it, rinse it with a lot of water quickly, and seek medical treatment urgently without delay.
When storing, find a cool and dark place and place it in a sealed container to prevent it from mixing with other things and causing it to change. The device must be clearly marked with its name and characteristics, so that people can see it at a glance.
Furthermore, the utensils used must be washed and dried after use, for the next time. When operating, look around left and right to check for any hidden dangers around to prevent accidents. Everyone cooperates, the speech is clear, the order is prohibited, and it is not allowed to act recklessly.
Only by following these standards can the operation be safe, the quality of the goods is pure and unchanged, and everything goes smoothly.

Application Area

There is a nearby object, named Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3), which has its use in many fields. In the field of medical Tao, it can help doctors explore the micro of the disease, to clarify the crux of the problem, and to help cure the disease. In the world of engineering, it can make the utensils more firm, increase their quality, and meet the needs of everyone. In the research institute, scholars use it to observe the wonders of the microscopic, study the nature of matter, and promote the progress of learning. This substance, with its unique nature, has played a miraculous role in the fields of medicine, engineering, learning and research, etc., like stars shining at night, for all karma to move forward, point out the direction, and help the extraordinary. Its power cannot be underestimated.

Research & Development

Modern chemistry has advanced, and material research has deepened. Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3) This object has been studied by scholars.
On the way of research, observe its properties in detail, explore its structure, and analyze the reason for its reaction. With precise methods, study the integration and separation of elements, and observe the signs of change. Expect its use in various fields, such as medicine and materials, in the hope of being able to create something.
When you study, you may encounter difficulties, but you will make unremitting exploration. Every achievement is a step forward. Hope that it will be used more and more widely, promote the progress of science and technology, and become the work of development, so that this research object can be used in the world, benefiting everyone, and achieving the grand cause of research and development.

Toxicity Research

This is a chemical product named Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3). Regarding the toxicity of this product, I will explore it in detail.
First check its chemical structure. This complex is composed of iron ion, potassium ion and specific naphthalene diamine disulfonate. Iron ion is common in many biochemical reactions, but its chemical and biological activity may be changed after complexing with naphthalene diamine disulfonate.
Review its application scenarios. If used in industry, contacts may be exposed through respiratory or skin contact. In laboratory scenarios, improper operation also poses an exposure risk.
After a series of experiments, it is preliminarily known that it has potential effects on organisms. For some cell lines, it shows certain cytotoxicity, or interferes with the normal metabolism and proliferation of cells. However, the exact degree of toxicity still needs more animal experiments and long-term environmental monitoring to know.
In summary, although the toxicity of Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3) has some clues, it is fully recognized and needs to be further studied to ensure the safety of production and use.

Future Prospects

Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3) This substance is crucial in my chemical research. Looking at the present, although there have been various achievements, there is still a vast world in the future.
We hope that in the future research, we can study the properties of this compound in more depth. Explore its reaction under different conditions, hope to discover new chemical properties, and add to the materials science. And hope to optimize the preparation method, so that the yield is higher, the cost is lower, and it is more suitable for industrial needs.
Furthermore, it can be applied to other fields, such as biomedicine and environmental monitoring. If there is a breakthrough in this, it will be great. This is the future development prospect of our chemical researchers on Iron (3 +) Potassium 5,6 - Diaminonaphthalene - 1,3 - Disulfonate (1:3:3), hoping to realize it one by one to benefit everyone.

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Frequently Asked Questions

As a leading Iron(3+) Potassium 5,6-Diaminonaphthalene-1,3-Disulfonate (1:3:3) supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the main ingredient of this product Iron (3 +) Potassium 5,6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3)

The main components of this compound, Iron (3 +) Potassium 5,6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3), are as follows:
One is iron ion, which is presented here as trivalent iron ion (Iron (3 +)). Iron plays a key role in many chemical reactions and biological processes. In the industrial field, iron and its compounds are often used to catalyze reactions; in biological systems, iron is a key component of hemoglobin and is of great significance for oxygen transportation.
The second is potassium ion (Potassium). Potassium is essential for maintaining normal physiological functions of organisms, such as regulating cell osmotic pressure, participating in nerve impulse transmission, and maintaining normal heart rhythms. Potassium compounds are widely used in chemical production and agricultural fertilizers.
The third is 5,6-diaminonaphthalene-1,3-disulfonate (5,6-Diaminonaphthalene-1, 3-Disulfonate). This organic compound has unique chemical properties due to its special amino and sulfonic acid groups. The amino group is basic and can participate in a variety of organic reactions, such as neutralization with acids to form salts, or participation in nucleophilic substitution reactions; the sulfonic acid group gives the compound good water solubility and can enhance the stability of the compound in some cases. In the fields of dyes and drug synthesis, such organic compounds containing amino groups and sulfonic acid groups are widely used and can be used as important intermediates for the synthesis of complex organic molecules with specific functions.
This compound is composed of trivalent iron ions, potassium ions, and 5,6-diaminonaphthalene-1,3-disulfonate in a ratio of 1:3:3. Each component interacts to give the compound unique physical and chemical properties, and exhibits specific functions in specific fields or reactions.

What is the scope of application of Iron (3 +) Potassium 6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3) products

The product of iron (ⅲ) 5,6-diaminonaphthalene-1,3-potassium disulfonate (1:3:3) has a specific scope of application in many fields.
In the field of analytical chemistry, this product can be used as a chromogenic agent for specific metal ions. Because of the special amino and sulfonic acid groups in its structure, it can specifically react with some metal ions to generate complexes with characteristic colors. The concentration of related metal ions in solution can be accurately determined by colorimetry or spectrophotometry. And the product has high selectivity and sensitivity to iron (ⅲ) ions, which can accurately identify and measure iron (ⅲ) in complex systems.
In the field of materials science, this product may participate in the preparation of functional materials. Its unique structure endows the material with specific electrical, optical or chemical properties. For example, the preparation of optical materials with absorption or emission characteristics for specific wavelengths of light, or adsorption materials with special ion exchange capabilities, etc. By regulating the reaction conditions and material composition, the material properties can be optimized to meet different application needs.
In the biomedical field, due to the affinity of the product to iron (ⅲ) ions, it can be developed as an iron ion probe for intracellular iron ion imaging. The change of iron ion concentration in cells is closely related to a variety of physiological and pathological processes. This product is helpful for studying the mechanism of iron metabolism in cells, as well as diagnosing and treating diseases related to iron metabolism disorders.
However, its scope of application is also restricted by many factors. For example, in practical applications, the pH of the system and the interference of other ions need to be considered. Too high or too low pH may affect the ability of the product to bind to the target ion, while coexisting ions may compete with the product to bind to the check point, reducing its selectivity and sensitivity. Therefore, careful optimization of reaction conditions is required when using it to achieve its best performance.

What are the precautions for using this Iron (3 +) Potassium 6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3) product?

When using the product of iron (ⅲ) and 5,6-diaminonaphthalene-1,3-potassium disulfonate (1:3:3), there are many precautions to be made clear.
This material has special properties. Before use, be sure to check its physical and chemical properties in detail, such as solubility and stability. Because of its solubility or different from normal substances, if the solvent is not selected properly during use, it may cause difficult reaction or impure product. And stability is related to storage and use conditions. A little carelessness or deterioration will affect the use effect.
The operation process must be strictly followed. Use should be accurate. With the help of appropriate measuring tools, the amount of dosage has a great impact on the reaction process and product characteristics. The weighing environment should also be paid attention to. Factors such as temperature and humidity may interfere with the weighing accuracy.
Furthermore, the control of the reaction conditions is the key. Temperature, pH value, etc. will affect the formation and properties of the product. If the temperature is too high or too low, the reaction rate may be abnormal, and even side reactions may be triggered; if the pH value deviates from the appropriate range, the structure and properties of the product may change.
In addition, safety protection should not be ignored. Although the exact toxicity is not known, many chemicals have latent risks. The operation should be carried out in a well-ventilated area. If necessary, wear protective equipment, such as gloves, goggles, etc., to prevent contact or inhalation from causing harm to the human body.
After use, properly dispose of the remaining products and waste. Do not discard it at will, and dispose of it in accordance with relevant regulations to avoid polluting the environment. In this way, the use process can be ensured to be safe, effective, and achieve the intended purpose.

What are the advantages of Iron (3 +) Potassium 6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3) products compared with similar products?

Compared with congeneric products, iron (ⅲ) and 5,6-diaminonaphthalene-1,3-disulfonate potassium (1:3:3) products have the advantage that this product exhibits excellent chemical stability due to its unique chemical structure. Iron (ⅲ) ions combine with 5,6-diaminonaphthalene-1,3-disulfonate potassium in a specific ratio of 1:3:3 to form a stable and ordered complex structure. This structure makes the product more resistant to external factors and maintains its own chemical stability in various chemical reaction environments.
In terms of solubility, this product exhibits better solubility in common solvents than congeneric products. This is due to the sulfonate groups carried by 5,6-diaminonaphthalene-1,3-potassium disulfonate, which are easy to form hydrogen bonds or other intermolecular forces with solvent molecules in solvents, which promotes the product to be more easily dispersed and dissolved, and then has more advantages in the application of related solution systems.
Furthermore, the adsorption performance of this product to specific substances is very outstanding. The empty orbit of iron (ⅲ) ions and the amino and sulfonate groups of 5,6-diaminonaphthalene-1,3-potassium disulfonate can form strong interactions with certain specific molecules or ions to achieve efficient adsorption of these substances. It has significant advantages in fields such as separation and purification, far better than congeneric products.

What is the market outlook for Iron (3 +) Potassium 6-Diaminonaphthalene-1, 3-Disulfonate (1:3:3) products?

The product of iron (ⅲ) and 5,6-diaminonaphthalene-1,3-disulfonic acid potassium (1:3:3) is a kind of unique chemical substance. In terms of today's market prospects, its application field is quite extensive.
In the field of scientific research, as a new type of reagent, it may emerge in the detection and analysis of specific substances. Because of its special chemical structure, it may react specifically with some target substances, thus helping researchers to identify and determine related components more accurately, so there may be a certain potential demand in the field of analytical chemistry research.
At the industrial level, some fine chemical production processes may have a demand for the unique chemical properties of the product. For example, in the synthesis process of specific materials, it may play a key role in catalysts, additives, etc., helping to optimize production processes, improve product quality, and then bring new opportunities for industrial production.
However, its marketing activities also face some challenges. First, the process of synthesizing the product may be relatively complex, resulting in high production costs and limiting its large-scale application. Second, related research may not be fully in-depth, and many potential properties and application scenarios remain to be explored. If we can make breakthroughs in process optimization, reduce costs, and increase scientific research investment to expand the application field, this product may shine brightly in the market in the future, and find broad development space in scientific research, industry and other fields, but the current industry still needs to work together to promote its marketization process.