What is the chemical structure of Tetrasodium 10-amino-6,13-dichloro-3- (3- (4- (2,5-disulfonatoanilino) -6-fluoro-1,3,5-triazin-2-ylamino) prop-3-ylamino) -5,12-dioxa-7,14-diazapentacene-4,11-disulfonate?

This is the name of the chemical substance, and the corresponding Chinese name may be 10-amino-6,13-dichloro-3- [3- [4- (2,5-disulfonylanilino) -6-fluoro-1,3,5-triazine-2-ylamino] propane-3-ylamino] -5,12-dioxa-7,14-diazopentacene-4,11-disulfonate tetrasodium salt. However, in order to know its chemical structure, this complex nomenclature needs to be resolved.

The concept of this nomenclature contains many functional groups and structural fragments. 10-Amino indicates that there is an amino group at a specific position; 6,13-dichloro refers to the substitution of chlorine atoms at positions 6 and 13; 3 - [3 - [4 - (2,5-disulfonylaniline) -6-fluoro - 1,3,5-triazine-2-ylamino] propane-3-ylamino] is a long-chain substituent, wherein 2,5-disulfonylaniline is connected to a triazine ring, which is in turn connected to a propyl group; 5,12-dioxa-7,14-diazapentacene is the core structure, containing oxygen and nitrogen heteroatoms; 4,11-tetrasodium disulfonate Salts have sulfonic acid groups at positions 4 and 11 of the core structure and exist in the form of sodium salts.

According to this, its chemical structure is based on 5,12-dioxa-7,14-diazapentacene as the skeleton, chlorine atoms at positions 6 and 13, sodium salt at positions 4 and 11, propyl chain containing triazine ring and aniline group at position 3, and amino group at position 10. The structure presents multiple aromatic rings, heterocycles and various functional groups, which are connected to each other to construct the structure of this complex organic compound.

What are the main uses of Tetrasodium 10-amino-6,13-dichloro-3- (3- (4- (2,5-disulfonatoanilino) -6-fluoro-1,3,5-triazin-2-ylamino) prop-3-ylamino) -5,12-dioxa-7,14-diazapentacene-4,11-disulfonate?

Tetrasodium 10 - amino - 6,13 - dichloro - 3 - (3- (4- (2,5 - disulfonatoanilino) -6 - fluoro - 1,3,5 - triazin - 2 - ylamino) prop - 3 - ylamino) -5,12 - dioxa - 7,14 - diazapentacene - 4,11 - disulfonate, this is an organic compound with a wide range of uses in modern fields.

First, in the printing and dyeing industry, it is often used as a reactive dye. Looking at its structure, it contains many reactive groups that can chemically react with fibers. When printing and dyeing natural fiber fabrics such as cotton and linen, with these reactive groups, it can form covalent bonds with fiber molecules, so that the dye firmly adheres to the fiber. In this way, not only the dyeing effect is good, the color is bright, but also the color fastness of the dyed fabric is very high, and the performance of washing and friction is excellent, which meets people's needs for the beauty and durability of the fabric.

Second, in the biomedical field, because of its complex structure and certain chemical activity, it can be used for the labeling and detection of certain biomolecules. By specific chemical reactions, it is connected to biomolecules, such as proteins, nucleic acids, etc. Due to its special spectral properties, in fluorescence detection and other technologies, it can accurately indicate the position and activity of biomolecules, which helps researchers to deeply explore various physiological processes in living organisms, and is of great significance for the diagnosis and treatment of diseases.

Third, in the field of materials science, this compound can participate in the preparation of functional materials. Due to its unique molecular structure, it endows materials with special electrical and optical properties. For example, in the synthesis of some organic optoelectronic materials, the introduction of this compound can optimize the charge transport performance and luminous efficiency of materials, providing an important foundation for the research and development of new optoelectronic materials, and promoting the development of display technology, optoelectronic devices and other fields.

What are the physical properties of Tetrasodium 10-amino-6,13-dichloro-3- (3- (4- (2,5-disulfonatoanilino) -6-fluoro-1,3,5-triazin-2-ylamino) prop-3-ylamino) -5,12-dioxa-7,14-diazapentacene-4,11-disulfonate?

This is a question related to the chemical substance named "10-amino-6,13-dichloro-3- (3- (4- (2,5-sodium disulfonate aniline) -6-fluoro-1,3,5-triazine-2-ylamino) propane-3-ylamino) -5,12-dioxa-7,14-diazopentacene-4,11-tetrasodium disulfonate". Its physical properties are as follows:

This compound is usually in solid form, mostly in powder or crystalline form. The color often varies depending on its purity and crystallization conditions, or is white to light yellow.

In terms of solubility, due to its structure rich in sulfonic acid groups, it has a certain solubility in water. Sulfonic acid groups are hydrophilic groups that can form hydrogen bonds with water molecules, promoting the dispersion of the substance in water. However, its solubility in organic solvents is relatively limited. Due to the strong polarity of the overall structure, the interaction with non-polar organic solvents is weak.

In terms of stability, under conventional environmental conditions, the substance has a certain stability. However, its molecular structure contains multiple nitrogen, chlorine and other atoms and specific chemical bonds. Under extreme conditions such as high temperature, strong acid, and strong base, chemical bonds may break or rearrange, causing their structure to change and their chemical properties to change. For example, in a strong acid environment, its amino groups, substituents on triazine rings, etc. may undergo protonation and other reactions; under strong base conditions, some chemical bonds may be destroyed due to reactions such as nucleophilic substitution.

The exact physical constants such as melting point and boiling point of this substance vary due to differences in experimental measurement conditions and need to be determined according to specific experimental data. Overall, such compounds containing complex aromatic structures and various functional groups generally have a high melting point, and due to the existence of strong interaction forces between molecules, such as van der Waals forces, hydrogen bonds, etc., high energy is required to disintegrate their lattice structure and undergo phase transition.

Tetrasodium 10-amino-6,13-dichloro-3- (3- (4- (2,5-disulfonatoanilino) -6-fluoro-1,3,5-triazin-2-ylamino) prop-3-ylamino) -5,12-dioxa-7,14-diazapentacene-4,11-disulfonate What is the synthesis method?

Alas! This is the key to chemical synthesis. Tetrasodium 10 - amino - 6,13 - dichloro - 3 - (3 - (4 - (2,5 - disulfonatoanilino) -6 - fluoro - 1,3,5 - triazin - 2 - ylamino) prop - 3 - ylamino) -5,12 - dioxa - 7,14 - diazapentacene - 4,11 - disulfonate Synthesis of this product is not easy.

To synthesize this product, the first thing to need is a basic raw material. Among them, 2,5-disulfonic acid aniline, 6-fluoro-2,4-dichloro-1,3,5-triazine and other raw materials need to be carefully selected to maintain their stability. First, 2,5-disulfonic acid aniline 6-fluoro-2,4-dichloro-1,3,5-triazine should be used in the lower reaction of suitable parts, or in the environment of resistance, to control its strength and reaction, so that the two can be replaced by reaction, resulting in medium reaction.

However, the obtained medium reaction is the reaction of propyl compounds containing specific amino groups. This step also requires precise control of the reaction parts, such as the reaction of dissolution, so that the two can be effectively combined. The degree of stability, the addition of catalysis, all affect the yield of the reaction process.

When this two-step reaction is completed, multiple processes may be required. For example, column precipitation, recrystallization method, etc. are used to remove and improve the product. Make the obtained product meet the requirements of Tetrasodium 10 - amino - 6,13 - dichloro - 3 - (3 - (4 - (2,5 - disulfonatoanilino) -6 - fluoro - 1,3,5 - triazin - 2 - ylamino) prop - 3 - ylamino) -5,12 - dioxa - 7,14 - diazapentacene - 4,11 - disulfonate. Therefore, the synthesis of this compound requires careful attention and precise control of each step according to the principle of chemistry before it can be obtained.

Tetrasodium 10-amino-6,13-dichloro-3- (3- (4- (2,5-disulfonatoanilino) -6-fluoro-1,3,5-triazin-2-ylamino) prop-3-ylamino) -5,12-dioxa-7,14-diazapentacene-4,11-disulfonate What are the precautions during use?

This is a difficult problem for the chemical profession, Tetrasodium + 10 - amino - 6,13 - dichloro - 3 - (3 - (4 - (2,5 - disulfonatoanilino) -6 - fluoro - 1,3,5 - triazin - 2 - ylamino) prop - 3 - ylamino) -5,12 - dioxa - 7,14 - diazapentacene - 4,11 - disulfonate, the name of this compound is verbose and complicated, when using, be sure to pay attention to many things.

bear the brunt, safety first. This substance may be chemically active and may cause irritation or damage in contact with the skin and eyes. During the operation, appropriate protective equipment, such as gloves, goggles and protective clothing, must be used to prevent direct contact with the body. In case of accidental contact, rinse quickly with plenty of water and seek medical attention according to the situation.

Furthermore, accurate weighing and configuration are essential. Due to its special chemical properties, dosage deviations, or reaction results are very different. Therefore, accurate instruments are required for weighing. When configuring the solution, follow the standard steps to ensure accurate concentration.

When storing, also pay attention to it. It should be placed in a dry, cool and well-ventilated place, away from fire, heat and incompatible substances. Some chemicals are easy to absorb moisture, oxidize or evaporate, and proper storage can keep their properties stable.

During use, the reaction conditions must be strictly controlled. Temperature, pH, reaction time and other factors may all affect its chemical behavior. Carefully record the experimental conditions and results for subsequent analysis and summary.

In addition, waste disposal should not be underestimated. After use, it should be disposed of in accordance with relevant regulations and cannot be discarded at will to prevent environmental pollution. Or centralized recycling, or through specific treatment procedures to ensure harmlessness.

In short, the use of this compound is like walking on thin ice in the abyss, and all links are treated with caution to ensure the safety and smoothness of the experiment and achieve the intended purpose.