1,3,6,8-Pyrenetetrasulfonic Acid, Tetrasodium Salt

Lingxian Chemical

Specifications

HS Code	933251
Chemical Formula	C20H8Na4O12S4
Molecular Weight	664.52 g/mol
Appearance	Yellow to orange powder
Solubility	Soluble in water
Ph Range	Typically around 7 - 9 in aqueous solution
Fluorescent Property	Strongly fluorescent
Purity	Generally high purity, e.g., 95%+
Storage Condition	Store in a cool, dry place
Stability	Stable under normal conditions
Cas Number	52435-51-3

Packing & Storage

Packing	100 g of 1,3,6,8 - Pyrenetetrasulfonic Acid, Tetrasodium Salt in sealed chemical - grade package.
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 exposure to air. Ideal storage temperature is around room temperature (15 - 30 °C), as extremes may impact its stability. Avoid storing near incompatible substances to prevent chemical reactions.
Shipping	1,3,6,8 - Pyrenetetrasulfonic Acid, Tetrasodium Salt is shipped in carefully sealed containers. Shipment follows strict chemical transport regulations to ensure safe delivery, avoiding exposure to harmful conditions.

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1,3,6,8-Pyrenetetrasulfonic Acid, Tetrasodium Salt

General Information

Historical Development

1,3,6,8 - tetrasodium pyrene tetrasulfonic acid salt, the development process of this product has a long history. In the past, chemical research was just beginning to flourish, and various sages dedicated themselves to the exploration of new things. At that time, the technology was not refined, the conditions were simple, but the determination was unremitting. After years of research, we began to find clues. At the beginning, the synthesis method was complicated and the yield was low, which was only tested in the laboratory. Later, with the evolution of technology, the process was optimized, and the yield gradually increased, and it was prepared in small quantities. In the age of science and technology, the instruments were sophisticated, the theory was complete, and the synthesis technique was increasingly mature. Today, this compound has emerged in many fields such as materials and analysis, and its application is gradually widening. Its development path is actually the crystallization of the efforts and wisdom of the researchers of the past dynasties.

Product Overview

The tetrasodium salt of 1,3,6,8-pyrene tetrasulfonate is an important substance for chemical research. Its shape or powder, white and pure, has a wide range of uses in light, electricity and chemical fields. This substance has excellent photoluminescence and can be used in the preparation of fluorescent probes, which can sensitively measure a variety of substances. In material science, polymers can be added to increase the light conductivity and luminescence of materials. And because of its good water solubility, it is convenient for biological system research. When preparing, conditions need to be strictly controlled to ensure the purity and performance of the product. Its chemical structure is stable, providing a solid foundation for many experiments and applications. It is indispensable for chemical research and has great contributions to promoting the development of related fields.

Physical & Chemical Properties

1,3,6,8 -Pyrene tetrasulfonic acid tetrasodium salt, this material property is unique. Its physical nature, color state is characteristic, or powder state, color purity and quality are uniform. Solubility also has characteristics, in water or good solubility, which is related to the effect of dispersion and fusion in application.
In terms of its chemistry, the sulfonic acid base gives it chemical activity. It can react with many substances, under specific conditions, or form new compounds. Its stability is also important, and it should be quite stable in the conventional environment. In case of special chemicals, temperature changes, etc., or chemical changes. Such physical and chemical properties lay the foundation for its use in chemical engineering, scientific research and other fields, and will be further explored by our generation to understand its more mysteries and applications.

Technical Specifications & Labeling

1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt Technical specifications and labeling (product parameters)
Fu 1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt, is a product of fine chemicals. The technical specifications are related to the synthesis method, which requires precise steps and suitable conditions. The selection of raw materials must be pure; the reaction temperature and duration must be strictly controlled to achieve the best yield and purity.
As for the identification (product parameters), the appearance and color should have specific characteristics, either pure white powder or white-like crystals. Purity, when measured by a precise method, must reach a very high standard. Parameters such as solubility and stability are also important markers, which are relevant to their application in different scenarios. This is the key to the technical specifications and identification (product parameters) of 1,3,6,8-tetrapyrene tetrasodium sulfonate, which is indispensable for chemical research and application.

Preparation Method

The method of preparing 1,3,6,8-pyrene tetrasulfonic acid tetrasodium salt is related to the raw materials and production process, reaction steps and catalytic mechanism. The first raw material is pure pyrene, supplemented by sulfating reagents, such as concentrated sulfuric acid or fuming sulfuric acid, which is the cornerstone of the reaction. The production process involves mixing pyrene and sulfating reagents in a reactor at a suitable temperature, stirring continuously, and controlling the temperature to make the reaction uniform. In the reaction step, the sulfonic acid group is gradually connected to the pyrene ring to form a 1,3,6,8-pyrene tetrasulfonic acid intermediate, which is then neutralized to obtain tetrasodium salt with sodium hydroxide. In the catalytic mechanism, sulfuric acid is not only a sulfating reagent, but also a catalyst to reduce the activation energy of the reaction, promote the reaction speed, and increase the yield. This method requires precise control of each step in order to obtain high-quality products.

Chemical Reactions & Modifications

The tetrasodium salt of 1,3,6,8-pyrene tetrasulfonic acid is of great research value in the transformation and characteristics of chemistry. Looking at its chemical reaction, if it comes into contact with various reagents, it often produces specific changes. Its structure is exquisite, and the tetrasulfonic acid group is connected to the pyrene nucleus, resulting in its unique chemical activity.
In the reaction, its sulfonic acid group is easy to complex with metal ions to form a stable complex. This property can be used to separate and purify metal ions. And in solution, its charge distribution affects the intermolecular interaction, or changes the rate of chemical reaction.
Its chemical properties are also found in the response to light and heat. Under light, intramolecular electron transitions induce luminescent chemical reactions, which can be used in the creation of optoelectronic devices. When heated, the structure or gradual change leads to the migration of chemical properties, which provides the possibility for material modification. In short, this compound has great potential in chemical reactions and characteristics, and needs to be explored in depth by our generation to expand the new field of chemistry.

Synonyms & Product Names

1,3,6,8 - tetrasodium pyrene tetrasulfonate is very important in chemical research. It has many other names and trade names, which are well known to researchers. Looking at ancient books, although there is no direct detailed record of its name, it is clear from chemical reasons that its related characteristics may be traced in the chemical discussions of ancient books.
This object has a unique chemical structure and is used in many fields. For example, in material synthesis, it can be used as a key component to make exquisite functional materials. Although ancient books do not have their exact names, the methods of material preparation may be similar. Today's researchers study this object and study its properties in detail, analogous to the ancient people's exploration of material properties, all of which are unremitting in pursuit of truth.
Its nickname and trade name are like the nickname of an ancient object. Although the titles are different, they actually refer to the same thing. Scientists are like ancient scholars. Only by clarifying the names of this object in their exploration can they make better use of it, add bricks to chemical research, and move forward step by step on the road of scientific research to reach new heights.

Safety & Operational Standards

1,3,6,8 - tetrasodium pyrene tetrasulfonate is an important material in chemical research. Its safety and operation practices are related to the smooth progress of the research and the safety of personnel.
When using this chemical, you must read the relevant safety data sheet carefully. Because of its specific chemical activity and latent risk, it is essential to know its properties before operation.
The operating environment should be well ventilated. In this way, the accumulation of harmful gases can be avoided and the operator can breathe safely. If operating in a confined space, the gas concentration will increase, which may cause discomfort and even endanger health.
During the use process, be sure to wear appropriate protective equipment. For example, protective gloves can prevent direct contact with the skin and avoid chemical burns or allergic reactions; goggles can protect the eyes to prevent eye damage caused by accidental splashing.
After use, the disposal of remaining materials should not be ignored. Specific waste disposal procedures should be followed and should not be discarded at will. Due to its chemical properties, improper handling or environmental pollution.
When storing this chemical, it should be placed in a dry and cool place, away from ignition sources and oxidants. Suitable storage conditions can ensure its chemical stability and reduce safety risks.
The safe and standardized operation of tetrasodium pyrene tetrasulfonate is the basis for chemical research. Following the above points can not only ensure the safety of personnel, but also ensure the orderly progress of research work.

Application Area

1,3,6,8 - Pyrenetrasulfonic Acid, Tetrasodium Salt (1,3,6,8 - Pyrenetrasulfonic Acid, Tetrasodium Salt) is very useful in many application fields. In the field of biochemical research, it can be used as a fluorescent probe, with its unique fluorescence properties to gain insight into the structure and function of biological macromolecules, and research assistants can clarify the mysteries of life. In the field of materials science, it can contribute to the construction of new functional materials, optimize the optical properties of materials, and make materials emerge in optoelectronic devices. In environmental monitoring, with its sensitive response to specific substances, it can detect precise environmental pollutants and protect the ecological environment. The wide range of its applications is like a starry sky, shining a unique light in various fields, opening up a new path for scientific research and practical application.

Research & Development

In the field of chemical industry, there are names 1, 3, 6, 8 - Pyrenetetrasulfonic Acid, Tetrasodium Salt. I devote myself to the research of this thing, hoping to create something to promote its development.
This material is very different, and it has great potential in the process of scientific research. I often observe its properties, test its reactions, and hope to understand its mechanism and explore its profound meaning. Looking at it under different conditions, the changes presented are recorded in detail, and I dare not slack in the slightest.
Although the road of research is full of thorns, my ambition is as strong as a rock and I am unmoved. Every time I get something, I am ecstatic and feel one step closer to the truth. I am convinced that with time, I will be able to understand the whole picture and make it useful for the academic community to contribute to the development of the road.

Toxicity Research

1,3,6,8 -Pyrene tetrasulfonate tetrasodium salt, the toxicity study of this substance is quite important. Yu devoted himself to study and investigate its properties in detail. It is in various media, or there are special reactions, related to toxic changes. Looking at its structure, although it has a sulfonic acid base, the nature of pyrene nuclei cannot be ignored. In the context of experiments, test it with various organisms and observe its effects. Observe the state of cells, test the growth state, and explore its disturbance to physiological functions. Although no severe toxicity has been seen, long-term exposure may cause concerns. Such as in aquatic organisms, or metabolic changes, in terrestrial organisms, or hinder growth and development. Therefore, toxicity research still needs to be in-depth, in order to clarify the details, to ensure the safety of all living beings, and to avoid unknown risks.

Future Prospects

The husband now has a thing, name 1, 3, 6, 8 - Pyrenetrasulfonic Acid, Tetrasodium Salt. We are chemical researchers, and we are full of expectations for its future prospects.
This material property is unique, and it is widely used in the field of scientific research. It can be used as a probe for biochemical analysis to accurately observe microscopic changes; it can also enter materials, increase their characteristics, and expand their application.
Looking at the future, science and technology are changing day by day. This material may be used in medical diagnosis, help early diagnosis of diseases, and save people's diseases; in energy materials, promote the improvement of efficiency and solve the energy dilemma. Although the road ahead is long, but we have a determined heart, with unremitting research, to develop its endless potential, for the progress of the world, to contribute our efforts, open a new future.

Frequently Asked Questions

What is the main application field of 1,3,6,8 -pyrene tetrasulfonate tetrasodium salt

1% 2C3% 2C6% 2C8, these four things are ochre, gypsum, Anemarrhena, and japonica rice. Its main application fields are mostly related to the way of healing diseases.
Ochre, with heavy sex fall, has the ability to calm the liver, and often has a good effect on the diseases of qi inversion and hyperactivity of the liver and yang. If a person's hiccup is not limited, and the qi is inverted, it can be used to reduce the inversion of the qi, so that the qi can be smooth and stop. And in the symptoms of vomiting blood and hemorrhage, because the qi is against the blood, it can also help the blood to return to the meridians and stop its delusional behavior.
Casting is cold, and the power of clearing heat and purging fire is quite strong. It is often used in the syndrome of real heat in Yangming qi, and the symptoms include hot topic, sweating, thirst, and strong pulses. It can relieve the muscles and clear heat, diathermy and go out. When you are hot and thirsty, you can use it to clear the heat of the lungs and stomach, except for boredom and thirst.
Anemarrhena is also an important medicine for clearing heat. It nourishes yin and moisturizes dryness. It is combined with gypsum. It has more power to clear heat and save yin. In cases of dry heat and fluid injury, dry lung and cough, etc., it can nourish yin and moisturize the lungs, relieve cough and relieve asthma.
Japonica rice ganping can benefit the stomach and middle, and is combined with various medicines. It not only helps stomach qi, but also relieves the cold of gypsum and Anemarrhena
These four are commonly used in the fields of clearing heat and purging fire, reducing inversion and neutralizing, nourishing yin and moisturizing dryness, and play an important role in the common compatibility of doctors in treating diseases, relieving people's pain, and protecting the health of the common people.

What are the physicochemical properties of 1,3,6,8 -pyrene tetrasulfonate tetrasodium salt

The physical and chemical properties of tetrabutyl cyanoacrylate referred to by 1% 2C3% 2C6% 2C8 are as follows:
This substance is usually a colorless and transparent liquid in appearance, with a relatively pure texture and no obvious impurities. In terms of odor, it often has a special and more pungent odor, which can be used as a preliminary identification feature to a certain extent.
In terms of solubility, it can be dissolved in some organic solvents, such as common acetone, ethyl acetate, etc. This property makes it unique in some specific chemical processes and application scenarios.
Tetrabutyl cyanoacrylate has strong bonding properties, which can quickly interact with the surface of many materials and form a firm bond. This bonding property makes it play a crucial role in industrial production, especially in the bonding and fixing of various materials.
However, this substance is more sensitive to heat. In a heated environment, its stability will be affected, and chemical changes such as decomposition may occur, which in turn will cause changes to its original bonding and other properties. During storage and use, it is necessary to strictly control temperature conditions to avoid high temperature environments.
At the same time, tetrabutyl cyanoacrylate also has a certain impact on the human body. If its volatile gas is inhaled by the human body, it may irritate the respiratory tract and cause discomfort. If it accidentally touches the skin or eyes, it may also cause local irritation and even damage. Therefore, when using this substance, it is necessary to take comprehensive protective measures, such as wearing protective gloves, goggles, and gas masks, to ensure personal safety.

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

To make the four things of aluminite, that is, one, three, six, and eight, the method is as follows:
First take the high-quality charcoal, which is one number. The charcoal is pure and strong in quality, and it can be calcined in the fire to obtain its essence. When choosing charcoal, when distinguishing its color, it is better to be blue-black and shiny, and it needs to be knocked with sound, uniform in texture, and no variegated lines.
The third is mirabilite. Mirabilite is collected from salt lakes or mines. After taking it, it needs to be dissolved in water to remove its impurities. The dissolved liquid is placed in an open vessel, and when it evaporates slowly, the crystals precipitated are purified several times to obtain pure mirabilite.
As for the six, it is bile alum. The bile alum is often born in the oxidation zone of copper ore, and its color is dark blue. After taking it, it is also melted with water to remove mud and other sundries. Later, it is boiled slowly over charcoal fire to reduce the water content, and the bile alum crystallizes. Those with good shape and color can be used.
Eight numbers are sulfur. Sulfur is mostly produced in volcanic areas or near hot springs. After it is harvested, it is first broken into small pieces, and its filth and impurities are removed by distillation. During distillation, it is very important to control the heat. If the fire is large, the sulfur is easy to evaporate and dissipate, and if the fire is small, the impurities are difficult to remove.
When all four things are prepared, grind the carbonite into a fine powder, place it in a crucible, and bake it over low heat to remove the moisture. Then add purified mirabilite, stir slowly, and the fire will gradually increase, so that the two can fully react. When the reaction stops for a while, add the fine powder of bile alum, and continue to stir, you can see the strange color change in the pot at this time. Finally, add sulfur and calcine it with a fierce fire. When the four things are integrated, the color is uniform, and the four things of alum are formed. The whole process requires always paying attention to the heat, material ratio and reaction changes. If there is a slight difference, it will be difficult to make a good product.

What should be paid attention to when storing and using 1,3,6,8-pyrene tetrasulfonate tetrasodium salt

Today, there are four things called cauldron, one, three, six, and eight. When hiding, pay attention to all things. Cauldron sand is dry and toxic. When hiding, it is advisable to choose a dry, cool and ventilated place, away from direct sunlight, to prevent its qualitative change. If exposed to the sun, or in a humid place, it may change its medicinal properties and lose its original use.
When using it, you need to be especially cautious. The disease must be carefully examined first, and it must be applied before it can be used. Although cauldron sand has the ability to soften, eliminate accumulation, and dissolve rot, misuse will not be a disaster. The user should follow the ancient teachings and process them according to the recipe. The amount must be based on the scriptures, and they should not be good at increasing or reducing them. If you increase it, the poison will be too strong, and it will hurt people's righteousness; if you reduce it, the medicinal power will not be enough, and it will be difficult to obtain the full effect.
Furthermore, the method of processing should not be ignored. You need to follow the ancient method, or quench it with vinegar, or fly it with water, so that the medicinal properties are peaceful, the toxicity is slightly reduced, and the effect is not lost. The work of processing is related to human life, and you should not be careless.
As for the compatibility, you should understand the nature of various medicines. When the sand is combined with other medicines, there is the power of mutual use, and there is also If it is combined with realgar, it may increase its ability to attack poison; if it is used with licorice, it may slow down its dryness. However, it must be avoided with arsenic and the like to prevent the superposition of toxicity and cause great harm.
In short, when hiding the four things of sands, you should know their nature, abide by their laws, and understand their taboos, so as to achieve the purpose of curing diseases and saving people, and avoid disasters.

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

1% 2C3% 2C6% 2C8 The market price range of the tortoiseshell four-petaled brocade involved is difficult to generalize. The price of covering such treasures is determined by various factors.
First, the quality of the material is important. If the tortoiseshell is warm and delicate in texture, exquisite and clear in texture, and the four-petaled brocade of the four-petaled brocade of the four-petaled flower is exquisite in weaving, fine in silk thread, and uniform in color and dyeing, its price will be high; on the contrary, if the material is rough and the weaver is sparse, the price will be low.
Second, the age is also heavy. If the old product has passed through the years, is well preserved, has historical charm and cultural value, and the price will be higher than that of the new one. However, if the years of erosion cause damage, the price may be reduced due to it.
Furthermore, the market supply and demand situation has a great impact. If people are favored by tortoiseshell four-petaled brocade, and there are many applicants but few suppliers, the price will rise; if the market supply exceeds demand, the price may decline.
In addition, the origin also involves the price. Those who are made by famous masters and have an orderly inheritance are often higher than those of ordinary sources.
Roughly speaking, the market price of tortoiseshell four-petaled brocade with good condition, a little older and extraordinary origin may reach thousands of gold or even higher; while products with ordinary materials and craftsmanship are average and newer, or only worth about 100 gold. However, these are all approximate numbers, and the actual price still depends on the details of the specific items, and can only be determined after professional tasting and market comparison.