Benzenamine, 2-Chloro-3-Fluoro-6-Nitro-2-Amino-3-Chloro-4-Fluoronitrobenzene
Linshang Chemical
HS Code |
776070 |
Name | Benzenamine, 2 - Chloro - 3 - Fluoro - 6 - Nitro - 2 - Amino - 3 - Chloro - 4 - Fluoronitrobenzene |
Molecular Formula | C6H3Cl2F2N3O4 |
Molar Mass | 286.01 g/mol (approximate value, calculated from atomic masses of C, H, Cl, F, N, O) |
Physical State | Unknown under standard conditions |
Boiling Point | Unknown |
Melting Point | Unknown |
Solubility | Unknown in various solvents |
Density | Unknown |
Vapor Pressure | Unknown |
Flash Point | Unknown |
Reactivity | Likely reactive due to presence of nitro, amino, chloro and fluoro groups |
As an accredited Benzenamine, 2-Chloro-3-Fluoro-6-Nitro-2-Amino-3-Chloro-4-Fluoronitrobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
Packing | 250g of 2 - chloro - 3 - fluoro - 6 - nitrobenzenamine in sealed chemical - grade container. |
Storage | 2 - amino - 3 - chloro - 4 - fluoronitrobenzene (2 - chloro - 3 - fluoro - 6 - nitrobenzenamine) should be stored in a cool, dry, well - ventilated area, away from heat sources and open flames. It should be kept in a tightly - sealed container, preferably made of corrosion - resistant materials, to prevent exposure to air and moisture. Store it separately from oxidizing agents, acids, and bases to avoid potential chemical reactions. |
Shipping | 2 - chloro - 3 - fluoro - 6 - nitrobenzenamine (2 - amino - 3 - chloro - 4 - fluoronitrobenzene) is a chemical. Shipping should follow strict regulations. It may need special packaging to prevent leakage, and be labeled clearly for proper handling during transport. |
Competitive Benzenamine, 2-Chloro-3-Fluoro-6-Nitro-2-Amino-3-Chloro-4-Fluoronitrobenzene prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365006308 or mail to info@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8615365006308
Email: info@alchemist-chem.com


As a leading Benzenamine, 2-Chloro-3-Fluoro-6-Nitro-2-Amino-3-Chloro-4-Fluoronitrobenzene supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
In pharmaceutical manufacturing, this is used as a starting material to create a variety of drugs through a series of reactions. For example, some molecules with specific biological activities may act on specific targets and show therapeutic effects on specific diseases. In the development of pesticides, compounds containing special functional groups can be constructed through them. Such compounds may have insecticidal, bactericidal, weeding and other effects, providing assistance for pest control in agricultural production.
In the dye industry, 2-% chloro-3-fluoro-6-nitroaniline can be chemically modified to synthesize dyes with bright color and good stability. Because of its chlorine, fluorine, nitro and other functional groups, it can affect the color, fastness and other properties of dyes, meeting the needs of high-quality dyes in textile, printing and dyeing industries.
In addition, in the field of materials science, compounds derived from them may endow materials with unique optical and electrical properties, and play a potential role in cutting-edge fields such as optical materials and electronic materials. Overall, 2-% chloro-3-fluoro-6-nitroaniline, as an important organic synthesis intermediate, is of great significance to the development of many industries.
1. ** External performance **: Adenine is often white to light-colored powder. In addition, its characteristics make it under normal conditions, with a certain degree of quality, which is convenient for storage.
2. ** Melting temperature **: Its melting height is 360-365 ° C. High melting temperature indicates molecular force, and high energy is required to break the lattice and melt it. When it comes to boiling, because adenine is easy to decompose before boiling, it is often boiled when it is cut.
3. ** Solubility **: Adenine has very little solubility in water, and it is slightly soluble. This is because there are few molecules in the molecule, and the interaction between water molecules is weak. However, in some soluble molecules such as dimethyl sulfate (DMSO), the solubility is improved because adenine, a soluble molecule, is more compatible and can provide better solubility.
4. ** Density **: Adenine density is 1.6 g/cm ³, which is slightly higher than the density of water at 1 g/cm ³. This density characteristic affects its sedimentation or floatation in the liquid medium, and needs to be considered in the operation of the phase.
5. ** Light characteristics **: Adenine has unique light properties. In ultraviolet light, because of its total content, there is an absorption peak at a specific wave, usually around 260 nm. This property can be used for qualitative and quantitative analysis of adenine, and is widely used in biochemical analysis.
The first is the nitration of benzoic acid. Take benzoic acid, use the mixed acid of concentrated sulfuric acid and concentrated nitric acid as the nitrifying agent, and react under appropriate temperature conditions. The benzene ring of benzoic acid is mainly introduced into the meta-position to obtain 3-nitrobenzoic acid because the carboxyl group is the meta-site group. The key to this step of reaction is to control the temperature to prevent the side reaction of polynitroylation.
The second is the reduction of nitro groups. Treat 3-nitrobenzoic acid with iron powder and hydrochloric acid or other suitable reducing agents, and the nitro group can be reduced to an amino group to obtain 3-aminobenzoic acid. This process requires attention to the pH of the reaction system and the monitoring of the reaction process.
is then halogenated. Bromination is performed first, using liquid bromine as the bromine source, and 3-aminobenzoic acid is brominated in the presence of an appropriate catalyst such as iron powder or iron tribromide. Because the amino group is an ortho-site, the bromine atom will introduce the ortho-site of the amino group to obtain 2-bromo-3-aminobenzoic acid. This step requires controlling the amount of bromine and the reaction time to avoid excessive bromination.
Then iodization. 2-Bromo-3-aminobenzoic acid is co-reacted with iodine and appropriate oxidants such as hydrogen peroxide or sodium periodate, so that the iodine atom replaces the hydrogen at the appropriate position on the benzene ring to obtain 2-bromo-3-iodine-6-aminobenzoic acid. This step requires attention to the amount of oxidant and reaction conditions to ensure the selectivity of iodization. The above steps of the reaction require fine regulation of the reaction conditions, including temperature, pH, and the proportion of reactants. After the reaction, it needs to be separated and purified, such as recrystallization, column chromatography, etc., to obtain high-purity 2-bromo-3-iodine-6-aminobenzoic acid products.
The first heavy storage environment. Adenine should be stored in dry, dry, and good conditions. Because of its certain chemical activity, the moisture is easy to deliquescence, causing its physical properties to change and affect the product. If it is connected to high temperature, or causes decomposition and reaction, and reduces its effectiveness. Therefore, it is also very important to use a combined container, usually a sealed glass bottle or plastic bottle, which can effectively isolate water.
As a result, it is necessary to take shock-proof and anti-collision measures. Adenine is a non-fragile substance. However, due to strong shocks or collisions, it may still cause its package to break and be exposed to the external environment. And it needs to be controlled in the environment. It can be refrigerated or equipped with a tool to control the environment and maintain the quality of adenine.
In addition, if it does not exist or disappear, it is necessary to avoid the combination of oxidation and acid substances. The chemical properties of adenine make it easy to be oxidized when it encounters oxidation, and it may be reversed when it encounters acid, changing its own properties. Therefore, this product can be stored and stored separately to ensure the quality of adenine. Therefore, only by paying proper attention to the above-mentioned matters can we ensure that 2-% 3-oxo-6-aminopurine is well maintained in the storage environment.
In terms of environment, if this substance is put into natural water in large quantities, it may cause water enrichment. Due to its nitrogen content, it provides a source of enrichment for microorganisms such as algae in the water, promoting the growth of algae. Algae reproduction does not consume a large amount of dissolved oxygen in the water, causing the death of aquatic organisms such as algae due to lack of oxygen, breaking the balance of aquatic life, which may secrete toxins and harm other organisms. If it enters the soil, or changes the soil chemistry, it will affect the soil microbial community, and dry plants will grow normally.
When it comes to human health, adenine is an important component of nucleic acid. Under normal physiological conditions, humans can synthesize and maintain balance. However, if a large amount of input from the outside world is passed, or the balance of purine substitution may be broken. Purine substitutes and uric acid, including uric acid, have high levels of uric acid, and are excreted, uric acid crystals can sink in the body, body and other parts, causing pain, pain, and limited activity. High purine consumption during the period increases the pain and disease, which may be harmful. Uric acid needs to be excreted, and more uric acid aggravates the excretion. In the past, it can lead to diseases such as uric acid diseases, stones, etc., and even cause functional failure in severe cases, endangering life.

Scan to WhatsApp