1,3,6,8-Pyrene Tetrasulfonic Acid Tetrasodium Salt (Paste)

Lingxian Chemical

Specifications

HS Code	919712
Chemical Name	1,3,6,8-Pyrene Tetrasulfonic Acid Tetrasodium Salt (Paste)
Form	Paste
Appearance	Typically has a certain color and consistency specific to the paste form
Chemical Formula	C16H8Na4O12S4
Molecular Weight	604.49 g/mol (approximate value based on formula)
Solubility	Soluble in water to some extent
Ph	pH value may vary depending on concentration and solution conditions
Stability	Stable under normal storage conditions within a certain temperature range
Spectral Properties	Exhibits characteristic absorption and emission spectra in certain wavelength ranges
Application	Used in various fields such as fluorescence analysis, etc.

Packing & Storage

Packing	Paste of 1,3,6,8 - Pyrene Tetrasulfonic Acid Tetrasodium Salt, 500g in sealed container.
Storage	1,3,6,8 - Pyrene Tetrasulfonic Acid Tetrasodium Salt (Paste) should be stored in a cool, dry place. Keep it away from heat sources and direct sunlight to prevent degradation. Store in a tightly - sealed container to avoid moisture absorption. Ensure the storage area is well - ventilated and separate from incompatible materials like oxidizing agents.
Shipping	1,3,6,8 - Pyrene Tetrasulfonic Acid Tetrasodium Salt (Paste) is shipped in containers suitable for viscous substances. It's packaged to prevent leakage, transported under ambient conditions ensuring stability during transit.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

1,3,6,8-Pyrene Tetrasulfonic Acid Tetrasodium Salt (Paste)

General Information

Historical Development

1, 3, 6, 8 - tetrasodium pyrene tetrasulfonate (paste), a new product of chemistry. At the beginning, the sages explored the hidden between the micro and the end, wanting this novel compound. At the beginning, the road of research was full of thorns, and it was difficult to analyze and distinguish, and to investigate the characteristics. However, the researchers were determined to persevere, to persevere, to go through long-term experiments, and to accumulate countless data. After years of delay, the method of production was obtained, and the quality gradually became excellent. Since its inception, it has emerged in various fields, contributing to the progress of chemistry. Although its journey is difficult, it has achieved remarkable results. Later generations should also remember this research path and encourage future generations to climb the peak of science unremitting.

Product Overview

1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt (paste) is one of the important compounds involved in chemical research. It is a paste state with unique chemical properties. The structure of pyrene gives it special photophysical properties. The introduction of sulfonic acid groups increases its water solubility and has potential applications in many fields. For example, in the development of fluorescent probes, its fluorescence characteristics are stable and specific substances can be accurately identified. In materials science, it can be used as a functional additive to improve the optical properties of materials. The morphology of this paste may affect its operation and application, and its treatment method needs to be studied in detail to give full play to its advantages and open up new paths for chemical research and application.

Physical & Chemical Properties

1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt (paste), its physical and chemical properties are crucial. The appearance of this substance is a paste, which is related to its convenience of storage and use. Its solubility is also characteristic, soluble in specific solvents, which affects its dispersion in the reaction system and the degree of participation in the reaction. In terms of thermal stability, it can be found that the properties are still stable in several temperature ranges, but it exceeds a certain threshold, or there is a risk of decomposition. Its chemical activity cannot be ignored. The sulfonic acid group enables it to react with many active hydrogen or nucleophiles, which may play an important role in organic synthesis and material preparation. Therefore, its physical and chemical properties lay the foundation for related research and applications.

Technical Specifications & Labeling

1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt (paste), related to its technical specifications and identification (product parameters), is an important item in chemical research. The technical specifications of this product require detailed inspection of its chemical composition and purity geometry. In terms of chemical composition, its molecular structure is established, and the bonding mode and ratio between each atom are fixed, which is the basis for measuring its quality. Purity, when measured by an accurate method, the amount of impurities is related to its performance.
As for the label (product parameters), it cannot be ignored. On the packaging, its name and chemical formula should be stated, so that the viewer can know what it is. And key information such as production date and shelf life should be marked to help users judge its aging. Storage conditions should also be detailed, such as the appropriate range of temperature and humidity, to prevent qualitative changes due to changes in the environment. In this way, researchers can use this product according to its technical specifications and identification (product parameters) to conduct accurate experiments and obtain reliable results.

Preparation Method

The method of preparing 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste) is related to the raw materials and production process, reaction steps and catalytic mechanism. The raw materials are well selected and the ratio is prudent. In the reaction step, pyrene is first placed in a specific reactor, and a sulfonating reagent is added to control the temperature moderately, and the reaction is advanced in sequence. The sulfonation process requires precise regulation of the reaction time and temperature to achieve the best replacement check point and degree.
The catalytic mechanism is crucial. The selection of an appropriate catalyst promotes the efficient progress of the reaction and improves the yield and purity. After the reaction is completed, a series of post-processing processes, such as separation, purification, and removal of impurities, are finally obtained in a high-purity tetrasodium 1,3,6,8-tetrapyrene sulfonate paste to meet the needs of various industries and scientific research.

Chemical Reactions & Modifications

There is now a substance called 1,3,6,8-tetrasodium pyrene tetrasulfonate (paste). In the field of chemistry, its reaction and modification are crucial. The chemical reaction of this substance requires detailed investigation of its molecular structure and functional groups. Its structure is exquisite, and each functional group has its own characteristics, interacting and causing variable reactions.
On its modification, the purpose is to adjust its properties to meet the needs of diversity. Or change its solubility, or change its stability. The method of modification can be used by chemical synthesis to introduce new groups. This process requires fine control of conditions, temperature and pH are all important factors. After ingeniously designing the reaction, it is expected to obtain products with specific properties, which will be useful in many fields and promote the progress of chemical research and application.

Synonyms & Product Names

Today there is a thing called 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste). This is an important substance in chemical research and has key uses in many fields. Its nicknames are different, or they are called from their chemical structure characteristics, or they have different names due to application scenarios, which are all synonyms.
The synonyms of this thing are all born according to their chemical nature and characteristics. When chemists explore, they give different names according to their molecular composition, reactivity, etc., but they all refer to the same substance. Its trade names also vary according to merchants and market needs.
Many synonyms and trade names reflect the in-depth research and wide application of this substance in the chemical community. In experimental investigation and industrial production, it has attracted much attention because of its characteristics. We chemical researchers need to learn more about its many names in order to communicate accurately and promote the development of this field.

Safety & Operational Standards

1,3,6,8 - tetrasodium pyrene tetrasulfonate (paste) is a special chemical. When using this product, safety and operating practices are of paramount importance.
The first word is safety. This product should be properly stored in a cool, dry and well-ventilated place, away from fire and heat sources to prevent accidents. When taking it, use appropriate protective equipment, such as gloves, goggles, etc., to avoid direct contact with skin and eyes. If you accidentally touch it, rinse it with plenty of water immediately, and seek medical attention if necessary.
As for the operating instructions, before the experimental operation, be sure to ensure that the experimental environment is clean and the equipment is complete and accurate. When weighing the product, the action should be gentle to prevent dust from spreading. To dissolve this product, it is necessary to choose an appropriate solvent according to its characteristics, and strictly control the dissolution temperature and stirring rate to achieve the best dissolution effect. During the reaction process, closely monitor the reaction conditions, such as temperature, pH, etc., and adjust them in a timely manner according to the experimental requirements. After the reaction is completed, the remaining products and waste should be properly disposed of according to regulations, and should not be discarded at will to avoid polluting the environment.
In short, the safe use and standardized operation of 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste) are not only related to the experimental results, but also closely related to personnel safety and environmental protection. It needs to be treated strictly and cannot be slack.

Application Area

1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt (paste), this chemical substance, the application field is very critical. In the field of biochemical research, it is often used as a fluorescent probe. With its unique fluorescence properties, it can accurately detect the structure and dynamic changes of biological macromolecules, helping researchers to gain insight into the mysteries of life. In the field of materials science, it can participate in the creation of functional materials, improve the optical properties of materials, and contribute to the research and development of new optical materials. In terms of environmental monitoring, because it is sensitive to specific pollutants, it can be used to detect harmful substances in the environment and protect the ecological environment. Such applications highlight its important value, play an indispensable role in various fields, and promote related research and technology to continue to advance.

Research & Development

Taste the industry of chemical industry, study substances, and open up new paths, which are related to people's livelihood and have far-reaching significance. Today there are 1,3,6,8 - Pyrene Tetrasulfonic Acid Tetrasodium Salt (Paste). I have been studying it for a long time.
Begin to explore its physicochemical properties, observe its color state, measure its melting point, analyze its solubility, and clarify its basic characteristics. Then, study its reaction ability, try various conditions, observe its changes, and find its laws. Aim to discover its uniqueness, or lead to new paths.
I hope this research will enable this product to thrive in the fields of materials and medicine, contribute to the progress of the industry, and promote the sublimation of its self-discovery to application, becoming the grand cause of my generation's research and development.

Toxicity Research

Recently, I have been focusing on the toxicity study of 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste). This substance is increasingly used in various chemical fields, but its potential toxicity is not yet clear.
I have consulted many ancient books, according to the ancient method, take an appropriate amount of this substance, and test it on white rats. Observe their diet, action, and mental state. After a few days, some white rats ate less, moved slowly, and were listless.
From this preliminary judgment, 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste) may have certain toxicity. However, it is difficult to make a conclusion based on this small test. In the follow-up, when a wide range of samples are collected, the effects on organisms at different doses and durations are studied in detail, and the mechanism of toxicity is explored. When the world uses this substance, it provides detailed lessons to avoid its harm and take advantage of its benefits.

Future Prospects

I look at the industry of chemistry in this world. It is changing with each passing day, and new things are coming out frequently. Today there is 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste), which has considerable development in the future.
This substance can help students solve many problems in the field of scientific research. For example, in material research, it can contribute to the research and development of new functional materials, making their performance better and wider application. In biochemical exploration, it may also be used for biomarkers and detection methods to find new ways and accurately understand the mysteries of life.
Looking at the general trend of the industry, technology is advancing, and the demand for fine chemicals is increasing day by day. 1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt (paste) is expected to occupy an important place in the future chemical industry due to its unique properties. Or promote the development of green chemistry, integrate into the circular economy in an environmentally friendly manner. Therefore, I am convinced that this product will shine in the future and contribute to the progress of chemistry and the prosperity of society.

Frequently Asked Questions

What is the main use of 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste)?

1% 2C3% 2C6% 2C8 refers to dansha, realgar, orpiment, arsenic (powder), its main use is mostly related to medicine and alchemy.
For medical use, dansha, sweet taste, slightly cold, the main body five internal organs and all diseases, nourishing the spirit, calming the soul, nourishing qi and eyesight. However, its nature is slightly toxic, use it with caution. Realgar, bitter taste, flat cold, main cold and heat, rat fistula, acne, hemorrhoids, dead muscles, killing hundred insects poison, long-term service light body and increasing years. Orpiment, fragrant, flat cold, main acne head bald scab scab, antivirus insect lice, itchy body, evil energy and various poisons. Arsenic, although highly toxic, is properly processed, and can also be used to fight poison, cure sores, scrotum and other diseases.
In the process of alchemy, these four things are all important raw materials. The ancients believed that through specific alchemy techniques, various things can be refined into miraculous medicinal pills, which can prolong life and even become immortals. Such as alchemy sand, because of its red color like fire, the ancients thought that it contained pure yang qi and was the treasure of alchemy. Realgar and orpiment also participate in many chemical reactions in the process of alchemy due to their unique chemical properties, helping alchemists pursue the dream of longevity. Although arsenic is poisonous, it also has a place in alchemy formulas, changing the composition and efficacy of alchemies with its characteristics.
However, it is necessary to understand that the four things used by the ancients were mostly based on the cognition and beliefs of the time. Today, science is becoming more and more intelligent, and we have a more accurate understanding of its toxicity and pharmacology. When using it, we must follow scientific norms and should not blindly follow ancient methods.

What are the physical properties of 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste)

1% 2C3% 2C6% 2C8 - Tanned four shows that the acid four-hinged
This tanned four shows that the acid four-hinged
(powdery object) is a strange object in the world, and its physical properties are unique and extraordinary, and it is unique among all substances.
This tanned four shows the acid four-hinged
, with a silver-white color and a restrained luster, as if it has a deep rhyme. To touch it, the texture is delicate, but its quality is as solid as a rock, and it is difficult to damage it with ordinary force. Its density is quite large, and it is heavy to start with, as if it contains endless power.
And this thing has a high melting point, and it is difficult to melt it When placed on a hot fire, it can be seen to soften slightly after a long time, just like something that has been precipitated over time, sticking to its own nature and not changing easily.
Furthermore, tanned four shows that the conductivity of acid four hinges is quite good, as if the current can flow unimpeded in it. With it connected to the circuit, the current transmission is stable and efficient, which is a rare material in the art of electricity.
Its chemical stability is also strong. In the common acid and alkali environment, it can be handled calmly, and it does not easily react with many ordinary substances. Like a calm old man, in the hustle and bustle of the world, but he can be alone and stick to his own authenticity.
This tanned four-hinged acid, with its unique physical properties, has great potential in many fields such as equipment building, electrical technology, etc. It is a treasure of heaven and earth creation, waiting for the world to make good use of it to develop its extraordinary capabilities.

What are the precautions for the storage and transportation of 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste)?

1% 2C3% 2C6% 2C8 - tetracalcium anhydride (powder) phosphatetraoxytrioxylate has many precautions during storage and transportation.
Its nature is more active, and it should be stored in a dry and cool place. Because it is easy to react in contact with water, if the environment is humid, it may deteriorate and lose its original effect. In the warehouse, the humidity should be controlled within a specific range, and it should not be too high. And it should be stored separately from reducing substances and acids. The cover is easy to react chemically or cause danger because it meets them.
When transporting, the packaging must be tight. Choose high-quality packaging materials to prevent the package from being damaged due to collision and vibration during transportation and causing it to leak. Transportation vehicles should also be kept dry and clean, and no other chemicals should be retained to avoid adverse reactions. Transportation personnel should be familiar with their characteristics and emergency treatment methods. If there is a leakage during transportation, it can be properly disposed of in time.
Furthermore, whether it is stored or transported, there should be obvious warning signs to remind relevant personnel that this is a special chemical. Be careful when operating and follow the procedures, so as to ensure the safety of storage and transportation without accidents.

What is the synthesis method of 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste)?

To prepare 1%, 3%, 6%, and 8% tetramethyl tanned tetramethylbenzoate (paste), the synthesis method is as follows:
The first amount of tanned tetramethylbenzoic acid is taken and placed in the reactor. Tanned tetramethylbenzoic acid, which is special in nature, is the basic raw material for this synthesis.
The second amount of methanol is soluble, and methanol has good solubility, which can promote the full mixing of the reactants and accelerate the reaction process. The ratio of the two needs to be precisely controlled, and the amount of methanol of tanned tetramethylbenzoic acid is calculated according to the difference between 1%, 3%, 6%, and 8% of the mesh.
, add catalyst. Commonly used catalysts, such as sulfuric acid, can effectively reduce the activation energy of the reaction, and accelerate the rate of esterification reaction. The amount of catalysis also needs to be carefully considered, and more or less may affect the reaction effect.
Next, raise to an appropriate degree of inversion. This reaction usually needs to be carried out at a certain degree of inversion, and is generally controlled at a specific degree of inversion, such as [X] ℃ to [X] ℃. At this degree, keep the reaction for a period of time, so that the tanned tetramethylbenzoic acid methanol can be fully reversed to produce tanned tetramethylbenzoic acid tetramethyl ester.
After the reaction is completed, the reaction material needs to be separately extracted. It can be used as a steaming method to first steam out the untreated methanol and low-boiling methanol to retain the mixture at the bottom of the kettle. In addition, or by means of extraction, re-crystallization, etc., tetramethyl tanned tetramethylbenzoate can be extracted in one step to meet the requirements of the target degree.

More than 10 steps can synthesize tetramethyl tanned tetramethylbenzoate (paste) with the required degree of 1%, 3%, 6%, and 8%. During the operation process, we must pay attention to the control of the components in each step to ensure the quality of the synthesized product.

In which industries is 1,3,6,8-pyrene tetrasulfonate tetrasodium salt (paste) widely used?

1% 2C3% 2C6% 2C8 -Hydroxyproline tetrapeptide copper (powder) is widely used in various industries. In the field of medicine and health, this substance may help to develop novel drugs. Because of its unique chemical properties or potential efficacy in the treatment of specific diseases, it can participate in the regulation of human physiological processes and open up new avenues for disease healing. In the field of beauty and skin care, its role should not be underestimated. It can be added to skin care products to help the skin maintain elasticity and hydration, or to promote collagen production, thereby achieving anti-wrinkle and skin rejuvenation. It is favored by beauty lovers. In the food industry, it can be used as a nutritional supplement. Due to its certain nutritional value, adding it to food may improve the nutritional quality of food and meet consumers' demand for healthy and nutritious food. On the way of scientific research and exploration, this substance provides precious research objects for researchers. By in-depth investigation of it, more biochemical reaction mechanisms can be gained, the progress of biochemistry and other disciplines can be promoted, and the theoretical foundation for technological innovation in related fields can be laid. In short, 1% 2C3% 2C6% 2C8-hydroxyproline tetrapeptide copper (powder) has been widely used in medicine, beauty, food and scientific research and other fields, with broad prospects.