1,3,6,8-Pyrenetetra Sulfonic Acid Tetrasodium Salt

Lingxian Chemical

Specifications

HS Code	735513
Chemical Formula	C20H8Na4O12S4
Molecular Weight	692.53 g/mol
Appearance	Yellow - orange powder
Solubility	Soluble in water
Purity	Typically high purity, e.g., ≥95%
Absorption Max	Around 343 - 345 nm
Emission Max	Around 380 - 390 nm
Fluorescent	Yes
Stability	Stable under normal conditions
Ph Stability	Stable in a certain pH range

Packing & Storage

Packing	10 - gram pack of 1,3,6,8 - Pyrenetetra Sulfonic Acid Tetrasodium Salt in sealed pouch
Storage	1,3,6,8 - Pyrenetetrasulfonic Acid Tetrasodium 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 contact with air. Store it separately from oxidizing agents and incompatible substances in a well - ventilated area to maintain its chemical integrity and stability.
Shipping	1,3,6,8 - Pyrenetetrasulfonic Acid Tetrasodium Salt is shipped with strict compliance to chemical transportation regulations. Products are carefully packaged to prevent leakage, ensuring safe transit to destination.

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1,3,6,8-Pyrenetetra Sulfonic Acid Tetrasodium Salt

General Information

Historical Development

1,3,6,8 - tetrasodium pyrene tetrasulfonate, the development of this compound has gone through years of changes. In the past, at the beginning of chemical exploration, its understanding was still shallow. With the passage of time, scientific researchers worked tirelessly. In the early days, limited by technology and cognition, progress was slow. However, scholars maintained their perseverance and continued to explore. Gradually, breakthroughs were made in structural analysis and property insight. From simple cognition to in-depth analysis, every step has been a lot of effort. From the initial vague cognition to the current clarification of its characteristics and uses, it has been a long journey. Although the past achievements were limited, they laid the foundation for subsequent development, prompting the continuous evolution of this compound research, and blooming a unique brilliance in the field of chemistry.

Product Overview

The tetrasodium salt of 1,3,6,8-pyrene tetrasulfonic acid is an important substance for chemical research. Its characteristics are specific, with a sulfonic acid base, and good solubility in water. This characteristic makes it useful in many fields.
Looking at its shape, it is often in the shape of a powder, with a white or nearly white color and a uniform texture. In the field of photochemistry, it can be used as a fluorescent probe, because it can emit unique fluorescence in a specific environment and assist in the research of microscopic mysteries. In the process of material modification, it can use its sulfonic acid group to associate with other substances to change the surface properties of the material and increase its stability and hydrophilicity.
The preparation method of this agent requires fine operation, temperature control, time control and selection of suitable raw materials to obtain high-purity products. In short, 1,3,6,8-pyrene tetrasulfonate tetrasodium salt is of great value in chemical research and practical application.

Physical & Chemical Properties

1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt, the physical and chemical properties of this substance are relevant to our research. Its appearance, or in a specific form, under light, or a unique optical sign. In terms of solubility, in water or other specific solvents, it has its own solubility performance.
In terms of thermal stability, after a specific temperature test, it is known that it can be stable in a certain heat range, and then beyond a certain threshold, its properties may change. Its chemical activity, in contact with various reagents, or lead to specific reactions, generates other substances.
Exploring the properties of this substance is of far-reaching significance in the fields of materials and chemical industry, and can provide a key basis for the development of new substances and process improvement.

Technical Specifications & Labeling

Today there is a product named 1,3,6,8-tetrasodium pyrene tetrasulfonate. In the field of chemical industry, its technical specifications and identification (commodity parameters) are crucial.
In terms of technical specifications, its synthesis needs to be controlled by subtle methods. The purity of the raw materials, the temperature of the reaction, and the accuracy of the duration cannot be ignored. If it is combined in a kettle, the proportion of the materials must be in accordance with the regulations, the temperature is measured, and the duration is measured by the number of hours, in order to obtain a pure product.
As for the logo, its characteristics should be specified. What is the appearance, what is the color and taste, all need to be confirmed. And its chemical properties, uses, and storage methods should also be clearly marked. In this way, it is necessary to use this product in all things chemical, in a regular manner, in an orderly manner, and without error, in line with the strict requirements of chemical technology and identification.

Preparation Method

The method of making 1,3,6,8-pyrene tetrasulfonic acid tetrasodium salt is related to the raw materials and production process, reaction steps and catalytic mechanism. First take pyrene as the base material, which is the key starting material. Dissolve it with a suitable solvent to create a reaction environment. Add sulfonating reagents, such as concentrated sulfuric acid or chlorosulfonic acid, at a specific temperature and duration, so that the sulfonation reaction can proceed in an orderly manner. The temperature needs to be precisely controlled. If it is too low, the reaction will be slow, and if it is too high, it will be feared to cause side reactions. The reaction steps are rigorous. Stir the reagents slowly to spread evenly, and then adjust the temperature and speed according to the process. In the catalytic mechanism, some additives can be introduced to promote the Through this operation, it is expected to obtain 1,3,6,8-pyrene tetrasulfonate tetrasodium salt with good purity, which will be prepared for subsequent use.

Chemical Reactions & Modifications

1,3,6,8 -Pyrene tetrasulfonic acid tetrasodium salt is related to chemical reactions and modifications, and is an important part of chemical research. Its chemical reactions, such as participating in many organic synthesis processes, need to be carefully considered in the control of reaction conditions and the ratio of reactants, so that the reaction can be smooth and the product is pure. And its modification is also of great significance. Or through chemical modification, add specific functional groups to change its physical and chemical properties, such as solubility and stability. After modification, or in the fields of materials science, biomedicine and other fields, it can have better applications. Looking at its chemical reactions and modifications, it is like a microscopic world. With wisdom, it draws a blueprint for science and paves the way for innovation in the development of many fields.

Synonyms & Product Names

1,3,6,8-tetrasodium pyrene tetrasulfonate is especially important in the field of my chemical research. Its synonyms and trade names all carry key clues to research.
Looking at ancient books, the names of chemical things often vary according to time, place and use. Today's 1,3,6,8-tetrasodium pyrene tetrasulfonate also has many nicknames. Either because of its unique structure or because of its significant characteristics, the names are different in different classics and studies.
These synonyms and trade names are not just changes in words, but actually reflect the twists and turns of the chemical research process. In the past, with each new gain, the understanding of it will improve, and the title may be easier accordingly. The trade name is related to its application and circulation, in order to meet the needs of all parties.
Today, we will study the synonyms and trade names of 1,3,6,8-pyrene tetrasulfonate tetrasodium salt in detail, hoping to clarify its evolution in the long river of chemical research, paving the way for future research, observing its past, and knowing its origin, so that we can go on the road of future research and go far.

Safety & Operational Standards

1,3,6,8 - tetrasodium pyrene tetrasulfonate is an important chemical substance that is widely used in many fields. It is crucial to the safety and operating practices of this substance.
In terms of safety, the first priority is to ensure that its storage environment is suitable. It should be stored in a dry, cool and well-ventilated place, away from fire, heat and strong oxidants. Due to its active chemical nature, improper storage is prone to danger.
When operating, established procedures must be strictly followed. Experimenters need professional protective equipment, such as protective clothing, protective gloves and protective glasses, to prevent direct contact with the substance. In case of accidental contact with skin or eyes, rinse with plenty of water immediately and seek medical treatment in time.
During use, the dosage should be controlled to avoid waste or safety problems caused by excessive use. At the same time, the experimental operation should be carried out in a fume hood to eliminate possible harmful gases and ensure the safety of the experimental environment.
Furthermore, after use, the remaining 1,3,6,8-pyrene tetrasulfonate and related waste must be properly disposed of in accordance with regulations and cannot be discarded at will to prevent pollution to the environment.
Only by strictly adhering to safety and operating standards can we ensure that the safety of personnel and the environment are not endangered during the use of 1,3,6,8-pyrene tetrasulfonate, and at the same time ensure the smooth progress of experiments or production.

Application Area

1,3,6,8 - tetrasodium pyrene tetrasulfonate is quite useful in various application fields. In the field of biochemical research, it can be used as a fluorescent probe to accurately detect the characteristics and behaviors of biomolecules. In the field of material science, it can increase the fluorescence properties of materials and help them emerge in optoelectronic devices. In environmental monitoring, it can sensitively detect environmental pollutants with its fluorescence properties. In the past, although there was no such exact chemical, the concept of exploring the application of fluorescent substances has long been there. Today, 1,3,6,8 - tetrasodium pyrene tetrasulfonate, with the power of modern technology, has shown its talents in many fields and has contributed to the development of various industries. The prospects are vast.

Research & Development

In recent years, I have had a lot of experience in the research of 1,3,6,8-pyrene tetrasulfonic acid tetrasodium salt. This compound has unique properties and has great potential in the fields of light and electricity.
I first came into contact with this substance and carefully studied its structure. The molecular configuration was exquisite, and the distribution of sulfonic acid groups was orderly. After repeated experiments, its solubility and stability were explored, and its changes were analyzed in detail in different solvent media.
In order to explore its application, I tried to cooperate with colleagues. In the photocatalytic system, I tried to use 1,3,6,8-pyrene tetrasulfonic acid tetrasodium salt as a sensitizer, which has achieved remarkable results and good catalytic efficiency. And in the preparation of new materials, the introduction of this substance, the prepared material has excellent performance and is expected to be used in high-end electronic devices.
Looking to the future, we hope to use this as a foundation to explore in depth, explore more hidden properties, expand application boundaries, and make great progress in scientific research and industry, contributing to the academic community and industry, and promoting its vigorous development.

Toxicity Research

Since modern times, the study of toxicity of chemical substances has become more and more detailed. Today, there is a thing named 1,3,6,8-pyrene tetrasulfonate tetrasodium salt, and our generation should carefully investigate its toxicity.
Examine the properties of this thing, or involve various fields of chemical industry. The study of toxicity is related to the safety of living things and environmental profits and losses. To understand it in detail, we need to use scientific methods to test it in various conditions, observe its sympathies with other things, and observe its changes in the body.
Examine its reaction in detail, analyze its metabolic path, and determine the depth of its toxicity. Or irritating harm, or chronic danger, can not be ignored. When exploring, we should use a cautious and rigorous attitude to ensure that the conclusion is conclusive, so as to avoid omissions, ensure that everyone is born safe, and protect the tranquility of the environment.

Future Prospects

Today there is a thing named 1,3,6,8-tetrasodium pyrene tetrasulfonate. Our generation studied it chemically, and we thought a lot about its future extension. The characteristics of this thing are very different, or it will shine in the field of optoelectronics, which will be a new way of lighting and lead to changes in display. It is also expected to show its skills in biochemical analysis, accurately measure objects, and help scientific research progress. Although there may be thorns in the road ahead, we scientific researchers should have a tenacious heart, explore its unknown and explore its potential. With time, we can make it useful, for the well-being of the world, and open a new chapter in the future. Live up to the mission of scientific research and develop the grand road of science and technology.

Frequently Asked Questions

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

"Tiangong Kaiwu" says: "Alum is in the shape of five colors, and sulfur is the general of a group of stones, all of which are changed by fire." Alum substances have various forms, and sulfur plays an important role in ores. The two can undergo wonderful changes under the action of fire. 1, 3, 6, 8 - The main uses of alum are very wide.
Alum can be processed and refined to obtain potassium alum, ammonium alum and other alum. Potassium alum is significantly used in the paper industry. In the paper sizing process, it can form a protective film on the surface of the paper, enhance the water resistance of the paper, make the ink writing on it not easy to spread, and the writing and painting are more smooth. At the same time, in the field of food processing, potassium alum is used as a food additive. When fritters are made, it reacts with baking soda to produce carbon dioxide gas, which makes fritters expand and crisp and taste better.
Ammonium alum plays a key role in the printing and dyeing industry. In the dyeing process, it can be used as a mordant to help dyes better adhere to fabric fibers, improve dyeing fastness, and make dyed fabrics bright and long-lasting. In addition, in the field of medicine, ammonium alum has the effect of astringent and hemostatic. When there is a slight wound bleeding on the body surface, it can promote blood coagulation and achieve the effect of hemostasis.
Furthermore, alum can also be used to extract alumina. Alumina is an important industrial raw material. In the manufacture of refractory materials, with its high melting point characteristics, it can greatly improve the high temperature resistance of refractory materials, and is widely used in high temperature operations such as metallurgy and glass. In ceramic production, the addition of alumina can improve the mechanical properties and chemical stability of ceramics and improve the quality of ceramics.
Alumite has multiple uses and plays an important role in many industries. It has a profound impact on human production and life.

What are the physical and chemical properties of 1,3,6,8-pyrene tetrasulfonate tetrasodium salt

"Tiangong Kaiwu" says: All five kinds of alum come from the scriptures. Its alum, also known as alum, green alum, yellow alum, and black alum, are all made from one kind and change its quality.
Now, those who say stone gall, four Haoshi, and four orifice gall alum, the stone gall is gall alum. Its quality is green and green, like glazed, with a sour taste. It can be used as medicine to treat diseases, and it is also used in alchemy.
Four Haoshi, although contained in ancient recipes, is rare in the world. Its physical and chemical properties are rarely recorded in ancient books, or because it is rare, it is rarely described in detail.
The four orifices of bile alum are actually the genus of bile alum. Its color, taste, and sex are probably similar to those of bile alum. It has a sour taste, a cold nature, and the power of corrosion. It is involved in alchemy and medicine. The ancients, with its special shape and nature, explored its use in various alchemy techniques, hoping to gain something. Although the years have passed, many records may be wrong, but it is valuable to explore the nature of matter and use the spirit of nature.

In which fields is 1,3,6,8-pyrene tetrasulfonate tetrasodium salt widely used?

Tetrabutyl cyanoacrylate involved in 1% 2C3% 2C6% 2C8 is widely used in the field of industrial bonding. In industrial manufacturing, the bonding and splicing of many materials such as metals, plastics, ceramics, etc., often rely on this adhesive. Its rapid curing and strong bonding force can greatly improve production efficiency and ensure a stable product structure.
In the electronic and electrical industry, tetrabutyl cyanoacrylate also plays a key role in the fixing and connection of small electronic components. This adhesive can meet the strict needs of high-precision and high-reliability bonding of electronic products and ensure the stable operation of electronic equipment.
In the field of handicraft production, it is often used for the assembly and repair of various handicrafts because it can achieve fine bonding, high transparency after curing, and does not damage the appearance of handicrafts.
However, it should be noted that this glue has certain irritation and toxicity. When using it, it must follow safety regulations, operate with good ventilation, and take protective measures to prevent damage to the human body.

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

To make the tanned tetraacid four pills, you can use the methods of 1, 3, 6, and 8. First take an appropriate amount of medicinal materials, wash and dry them. Divide one into four, and one is processed in one method, that is, slowly fry it over low heat, so that the medicinal properties are slowly precipitated, and fry it until the color of the medicinal soup is like amber, and the aroma escapes. This is one ingredient. The second method is to filter it with three layers of gauze to remove impurities and make the medicinal quality pure. This is another ingredient. The third method is to use 6 methods. Put the medicinal materials in a cool and ventilated place, dilute and dry them for six days, and wait for the moisture to dissipate and the medicinal properties to condense into the third ingredient. The fourth is according to the 8 method, and the honey phase is combined, and the eight-turn method is stirred evenly. The amount of honey needs to be moderate. If it is too thick, the pill will be difficult to form, and if it is too thin, it will be difficult to form a pill, which will affect the efficacy. After stirring evenly, rub it into a pill, which is moderate in size and round and smooth. After the four ingredients are prepared in sequence, they are combined into one, carefully blended, and tanned into four-acid pills. This method can make all medicines complement each other and play their effects together to achieve the best medicinal power. When operating, you need to be careful and meticulous, follow the ancient method, and do not be negligent, which will damage the efficacy of the medicine.

What is the market prospect of 1,3,6,8 -pyrene tetrasulfonate tetrasodium salt?

In today's world, the market situation and prospects of tetraanhydride are related to many parties and are intricate. To observe this industry, the first thing to do is to observe the changes in its supply and demand.
From the side of self-demand, tetraanhydride has its uses in all fields. The pharmaceutical industry, with its characteristics, can be used to make special agents to treat various diseases, so pharmaceutical manufacturers are very eager for it. And the chemical industry is an important material for synthesizing specific materials. With the emergence of new chemical products, its demand is also growing. Furthermore, the food industry relies on it to adjust the taste and maintain quality, resulting in a stable increase in demand.
In terms of supply, its production is subject to technology and raw materials. Although the technology of preparing glycolic acid tetraanhydride has advantages, it still needs to be tackled in order to achieve high yield and high yield. The supply of raw materials fluctuates from time to time due to the weather and geography. If the production area is affected by disasters and the raw materials are not harvested, the production will be affected by it.
Looking at the competition in various cities, the number of competitors is increasing gradually, and the competition is becoming intense. There are both local enterprises striving to expand, and there are also foreign businesspeople involved in it. They either rely on their technical superiority, or they rely on the price of the United States, and each uses their own methods to compete for the market.
In summary, the market of glycolic acid tetraanhydride, although the prospects are promising, there are also challenges. If the industry can break through the technical barrier, stabilize the supply of raw materials, and cope with the competition, it is expected to take the lead in the market and gain long-term benefits.