Linshang Chemical
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2,6-Dichlorobenzenethiolate
Linshang Chemical
|
HS Code |
576017 |
| Chemical Formula | C6H3Cl2S- |
| Molar Mass | 179.06 g/mol |
| Appearance | Solid (usually) |
| Odor | Characteristic sulfur - containing odor |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in some organic solvents like ethanol, acetone |
| Melting Point | N/A (as an anion, but its salts may have specific melting points) |
| Boiling Point | N/A (as an anion, but its salts may have specific boiling points) |
| Pka Of The Conjugate Acid 2 6 Dichlorobenzenethiol | Around 8 - 9 |
| Color | Colorless to pale - colored (in solid or solution) |
As an accredited 2,6-Dichlorobenzenethiolate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 2,6 - dichlorobenzenethiolate packaged in a sealed, corrosion - resistant container. |
| Storage | 2,6 - dichlorobenzenethiolate should be stored in a cool, dry, well - ventilated area, away from heat sources and open flames. Keep it in a tightly - sealed container to prevent contact with air and moisture, which could potentially cause degradation or unwanted reactions. Store it separately from oxidizing agents and incompatible substances to avoid hazardous interactions. |
| Shipping | 2,6 - dichlorobenzenethiolate, a chemical, should be shipped in properly sealed, corrosion - resistant containers. It must adhere to hazardous material shipping regulations, with appropriate labeling indicating its nature for safe transportation. |
Competitive 2,6-Dichlorobenzenethiolate 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.
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Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy 2,6-Dichlorobenzenethiolate in China?
As a trusted 2,6-Dichlorobenzenethiolate manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
As a leading 2,6-Dichlorobenzenethiolate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What is the main use of 2,6-dichlorothiophenol salt?
The main users of calcium and aluminium siloxides are in metallurgy, chemical industry and building materials.
In the metallurgical industry, it can be used as a flux. When capped with calcium and aluminium siloxides at high temperatures, it can react with gangue components in the ore to generate slag with a low melting point. This slag is easy to separate from the metal, so it can improve the purity and smelting efficiency of the metal. For example, when making iron, adding an appropriate amount of calcium and aluminium siloxides can help remove silicon, aluminum and other impurities in the iron ore, so that the quality of iron is better.
In the chemical industry, aluminium siloxides are also important. It can be used as a raw material to produce many chemical products containing silicon and calcium. If it is used as the starting material, after specific chemical treatment, silica can be prepared. This substance is widely used in rubber, plastics and other industries to enhance the mechanical properties, wear resistance and aging resistance of the product.
As for the building materials industry, alumina dioxy has a wide range of uses. After processing, it can become an important component of building materials such as cement and glass. In cement production, appropriate addition of alumina dioxy can adjust the setting time and strength of cement and improve the properties of cement. In glass manufacturing, it can be used as a flux and clarifier to reduce the melting point of glass and improve the transparency and uniformity of glass.
Therefore, calcium and alumina dioxides play an indispensable role in many industrial fields, and their application is of great significance for promoting the development of related industries.
In the metallurgical industry, it can be used as a flux. When capped with calcium and aluminium siloxides at high temperatures, it can react with gangue components in the ore to generate slag with a low melting point. This slag is easy to separate from the metal, so it can improve the purity and smelting efficiency of the metal. For example, when making iron, adding an appropriate amount of calcium and aluminium siloxides can help remove silicon, aluminum and other impurities in the iron ore, so that the quality of iron is better.
In the chemical industry, aluminium siloxides are also important. It can be used as a raw material to produce many chemical products containing silicon and calcium. If it is used as the starting material, after specific chemical treatment, silica can be prepared. This substance is widely used in rubber, plastics and other industries to enhance the mechanical properties, wear resistance and aging resistance of the product.
As for the building materials industry, alumina dioxy has a wide range of uses. After processing, it can become an important component of building materials such as cement and glass. In cement production, appropriate addition of alumina dioxy can adjust the setting time and strength of cement and improve the properties of cement. In glass manufacturing, it can be used as a flux and clarifier to reduce the melting point of glass and improve the transparency and uniformity of glass.
Therefore, calcium and alumina dioxides play an indispensable role in many industrial fields, and their application is of great significance for promoting the development of related industries.
What are the physical properties of 2,6-dichlorothiophenol salt?
Dioxy ettringite is one of the minerals, its physical properties are unique, and it is of great significance in many fields.
Looking at its shape, it is often produced in crystal clusters. The crystals are mostly short columnar or plate-shaped, and the crystal surface is smooth and glassy. When the light is mapped, it shimmers and shimmers, like stars scattered, which is quite beautiful. Its colors are also diverse, usually white, gray-white, and occasionally light yellow or light pink. This is due to the difference in the type and quantity of impurities contained.
When it comes to hardness, it is about Mohs hardness of 3-4. The texture is relatively soft, and it is scratched with hard objects, which is easy to leave traces. The specific gravity is about 2.8-3.0. It feels slightly heavy to the hand. When placed in the palm of your hand, you can feel its weight.
Ettringite has good solubility and is easy to break into flat sheets or blocks along a specific direction. Its fractures are mostly shell-like or jagged, which needs to be taken into account when identifying and processing.
In addition, the transparency of ettringite is also one of its significant physical properties. Some crystals are translucent, light can be transmitted, and the view is hazy. It has a unique charm, which adds to its unique charm and is very popular in the field of ornamental stones.
Its physical properties make it widely used in building materials, ceramic industry and decorative materials. In building materials, it can be used as a filler to enhance the toughness and stability of materials; in the ceramic industry, it can improve the texture and color of ceramics; in decorative materials, because of its unique appearance, it can be carved into fine crafts and embellished living spaces.
Looking at its shape, it is often produced in crystal clusters. The crystals are mostly short columnar or plate-shaped, and the crystal surface is smooth and glassy. When the light is mapped, it shimmers and shimmers, like stars scattered, which is quite beautiful. Its colors are also diverse, usually white, gray-white, and occasionally light yellow or light pink. This is due to the difference in the type and quantity of impurities contained.
When it comes to hardness, it is about Mohs hardness of 3-4. The texture is relatively soft, and it is scratched with hard objects, which is easy to leave traces. The specific gravity is about 2.8-3.0. It feels slightly heavy to the hand. When placed in the palm of your hand, you can feel its weight.
Ettringite has good solubility and is easy to break into flat sheets or blocks along a specific direction. Its fractures are mostly shell-like or jagged, which needs to be taken into account when identifying and processing.
In addition, the transparency of ettringite is also one of its significant physical properties. Some crystals are translucent, light can be transmitted, and the view is hazy. It has a unique charm, which adds to its unique charm and is very popular in the field of ornamental stones.
Its physical properties make it widely used in building materials, ceramic industry and decorative materials. In building materials, it can be used as a filler to enhance the toughness and stability of materials; in the ceramic industry, it can improve the texture and color of ceramics; in decorative materials, because of its unique appearance, it can be carved into fine crafts and embellished living spaces.
What are the chemical properties of 2,6-dichlorothiophenol salts?
The calcium, magnesium and zinc dioxy ore is a strange ore created by heaven and earth. Its chemical properties are very unique, let me tell you in detail.
In this mine, silicon, calcium, magnesium, zinc and other elements complement each other to create many unique properties. First, the thermal stability is quite good, and the structure is not easy to disintegrate under high temperature baking. Like a strong city barrier, it is difficult to shake its foundation at high temperature, which makes it valuable for many industrial uses in high temperature environments.
Second, the chemical activity is moderate. It is neither too active, and it reacts violently when encountering ordinary things; nor is it too inert, indifferent to everything. This moderate activity allows the silica calcium magnesium zinc ore to play a just right role in a specific chemical reaction, just like a skilled craftsman, precise in the fine.
Furthermore, it has certain adsorption properties. Like an invisible filter, it can absorb certain impurity particles in the surrounding environment, making the environment more pure. And after adsorption, it can release the adsorbed substance under specific conditions. This reversible adsorption property adds a strong touch to its use.
And because it contains a variety of metal elements, when it encounters acids and bases, the reaction also presents a unique state. When exposed to acid, some metal elements react with it, releasing corresponding ions, and the structural framework formed by silicon elements can maintain the stability of the overall structure to a certain extent; when exposed to alkali, it also produces a unique reaction phenomenon according to its unique chemical composition and structure.
In short, the chemical properties of silica calcium magnesium zinc ore are rich and unique, and they are like hidden treasures in many fields such as industry and scientific research, waiting for the world to further explore its infinite possibilities.
In this mine, silicon, calcium, magnesium, zinc and other elements complement each other to create many unique properties. First, the thermal stability is quite good, and the structure is not easy to disintegrate under high temperature baking. Like a strong city barrier, it is difficult to shake its foundation at high temperature, which makes it valuable for many industrial uses in high temperature environments.
Second, the chemical activity is moderate. It is neither too active, and it reacts violently when encountering ordinary things; nor is it too inert, indifferent to everything. This moderate activity allows the silica calcium magnesium zinc ore to play a just right role in a specific chemical reaction, just like a skilled craftsman, precise in the fine.
Furthermore, it has certain adsorption properties. Like an invisible filter, it can absorb certain impurity particles in the surrounding environment, making the environment more pure. And after adsorption, it can release the adsorbed substance under specific conditions. This reversible adsorption property adds a strong touch to its use.
And because it contains a variety of metal elements, when it encounters acids and bases, the reaction also presents a unique state. When exposed to acid, some metal elements react with it, releasing corresponding ions, and the structural framework formed by silicon elements can maintain the stability of the overall structure to a certain extent; when exposed to alkali, it also produces a unique reaction phenomenon according to its unique chemical composition and structure.
In short, the chemical properties of silica calcium magnesium zinc ore are rich and unique, and they are like hidden treasures in many fields such as industry and scientific research, waiting for the world to further explore its infinite possibilities.
What is the synthesis method of 2,6-dichlorothiophenol salt?
"Tiangong Kaiwu" does not mention the relevant content of potassium calcium dioxysilicate ore. The following is a virtual synthesis method based on today's chemical knowledge and ancient ideas.
To obtain potassium calcium dioxysilicate ore, the following steps can be taken. Prepare all materials first, take pure silica, which contains mostly silica. Choose those with good texture, beat and grind them into fine powder, so that the subsequent reaction can be sufficient. And take calcium carbonate, which can be calcined from high-quality limestone. Calcined limestone requires building a vertical kiln, using char as fuel, placing limestone in a kiln, and calcining. At high temperature, calcium carbonate decomposes into quicklime (calcium oxide), which is cooled and ground into powder. Prepare potassium carbonate again. In ancient times, it was leached from plant ash and obtained by evaporation and crystallization.
Then the reaction of synthesis. Mix silica powder, calcium oxide powder and potassium carbonate in an appropriate proportion. This ratio needs to be accurately calculated to achieve the best reaction effect. After mixing evenly, place it in a special crucible. The crucible should be selected with high temperature resistance and stable chemical properties, such as a ceramic crucible.
Next, heat the crucible with a hot fire. The combustion can be assisted by a charcoal blast to continuously increase the temperature. In a high temperature environment, each substance undergoes a chemical reaction. Silica in silica interacts with calcium oxide and potassium carbonate. Potassium carbonate is decomposed by heat to form potassium oxide, which reacts with silica and calcium oxide to gradually form potassium calcium dioxysilicate.
After the reaction is completed, wait for the crucible to cool. After cooling, take out the product. At this time, the product may be mixed with unreacted raw materials and impurities. Therefore, a purification method is required. The product can be soaked in an appropriate amount of acid, dissolved to remove some impurities, and then rinsed with water for many times to remove acid and water-soluble impurities. Finally, after drying treatment, a relatively pure potassium calcium dioxysilicate ore can be obtained.
Although this is a synthetic method derived from the ancient method, it may be different from today's scientific methods and is only for reference.
To obtain potassium calcium dioxysilicate ore, the following steps can be taken. Prepare all materials first, take pure silica, which contains mostly silica. Choose those with good texture, beat and grind them into fine powder, so that the subsequent reaction can be sufficient. And take calcium carbonate, which can be calcined from high-quality limestone. Calcined limestone requires building a vertical kiln, using char as fuel, placing limestone in a kiln, and calcining. At high temperature, calcium carbonate decomposes into quicklime (calcium oxide), which is cooled and ground into powder. Prepare potassium carbonate again. In ancient times, it was leached from plant ash and obtained by evaporation and crystallization.
Then the reaction of synthesis. Mix silica powder, calcium oxide powder and potassium carbonate in an appropriate proportion. This ratio needs to be accurately calculated to achieve the best reaction effect. After mixing evenly, place it in a special crucible. The crucible should be selected with high temperature resistance and stable chemical properties, such as a ceramic crucible.
Next, heat the crucible with a hot fire. The combustion can be assisted by a charcoal blast to continuously increase the temperature. In a high temperature environment, each substance undergoes a chemical reaction. Silica in silica interacts with calcium oxide and potassium carbonate. Potassium carbonate is decomposed by heat to form potassium oxide, which reacts with silica and calcium oxide to gradually form potassium calcium dioxysilicate.
After the reaction is completed, wait for the crucible to cool. After cooling, take out the product. At this time, the product may be mixed with unreacted raw materials and impurities. Therefore, a purification method is required. The product can be soaked in an appropriate amount of acid, dissolved to remove some impurities, and then rinsed with water for many times to remove acid and water-soluble impurities. Finally, after drying treatment, a relatively pure potassium calcium dioxysilicate ore can be obtained.
Although this is a synthetic method derived from the ancient method, it may be different from today's scientific methods and is only for reference.
What are the precautions for storing and transporting 2,6-dichlorothiophenol salts?
Calcium siloxide glauberite is a mineral. During storage and transportation, many matters need to be carefully paid attention to.
The first thing to pay attention to is moisture-proof. This mine is prone to chemical reactions in contact with water, resulting in damage to its quality. If stored in a humid place, or rained during transportation, calcium siloxide glauberite may agglomerate and deteriorate, affecting subsequent use. Therefore, it must be stored in a dry place. Rainproof measures should also be taken during transportation, such as covering the transportation vehicle with a tarpaulin.
It is necessary to prevent collisions. Calcium siloxide glauberite has a brittle texture, and strong collisions can easily cause it to break. When storing, it should be avoided to stack too high to prevent the lower ore from being crushed under pressure. During transportation, it is also necessary to ensure that the ore is stable to reduce shaking and collision. Buffer materials can be laid in the compartment.
Furthermore, pay attention to the temperature. Extreme temperature environments may affect its chemical properties. Under high temperatures, calcium siloxide may accelerate certain chemical reactions and change its composition; low temperatures may change the physical state of the ore and affect its performance. Therefore, during storage and transportation, the temperature should be maintained within an appropriate range. In special cases, temperature control measures need to be taken.
In addition, attention should be paid to isolation from other substances. Calcium siloxide may react with certain chemical substances, so it should not be stored in the same place as the substance that can react with it; it should not be mixed during transportation to prevent mutual contamination and reaction, and ensure its purity and quality.
In short, storing and transporting calcium siloxide glauberite, moisture-proof, anti-collision, temperature control and isolation of other substances are all critical, so as to ensure that its quality and characteristics are not damaged and meet the needs of subsequent use.
The first thing to pay attention to is moisture-proof. This mine is prone to chemical reactions in contact with water, resulting in damage to its quality. If stored in a humid place, or rained during transportation, calcium siloxide glauberite may agglomerate and deteriorate, affecting subsequent use. Therefore, it must be stored in a dry place. Rainproof measures should also be taken during transportation, such as covering the transportation vehicle with a tarpaulin.
It is necessary to prevent collisions. Calcium siloxide glauberite has a brittle texture, and strong collisions can easily cause it to break. When storing, it should be avoided to stack too high to prevent the lower ore from being crushed under pressure. During transportation, it is also necessary to ensure that the ore is stable to reduce shaking and collision. Buffer materials can be laid in the compartment.
Furthermore, pay attention to the temperature. Extreme temperature environments may affect its chemical properties. Under high temperatures, calcium siloxide may accelerate certain chemical reactions and change its composition; low temperatures may change the physical state of the ore and affect its performance. Therefore, during storage and transportation, the temperature should be maintained within an appropriate range. In special cases, temperature control measures need to be taken.
In addition, attention should be paid to isolation from other substances. Calcium siloxide may react with certain chemical substances, so it should not be stored in the same place as the substance that can react with it; it should not be mixed during transportation to prevent mutual contamination and reaction, and ensure its purity and quality.
In short, storing and transporting calcium siloxide glauberite, moisture-proof, anti-collision, temperature control and isolation of other substances are all critical, so as to ensure that its quality and characteristics are not damaged and meet the needs of subsequent use.
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