Ethylenediaminetetraacetic Acid Tetrasodium Salt EDTA 4Na

Huihuang Chemical

Specifications

HS Code	507265
Chemical Formula	C10H12N2Na4O8
Molar Mass	380.177 g/mol
Appearance	White crystalline powder
Solubility In Water	Highly soluble
Ph Of Aqueous Solution	Around 11 (for 0.1M solution)
Chelating Ability	Strong chelating agent for metal ions
Stability	Stable under normal conditions
Melting Point	248 °C (decomposes)
Odor	Odorless
Hygroscopicity	Hygroscopic

Packing & Storage

Packing	500 - gram package of Ethylenediaminetetraacetic Acid Tetrasodium Salt (EDTA 4Na).
Storage	Ethylenediaminetetraacetic Acid Tetrasodium Salt (EDTA 4Na) should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption, as it can affect its properties. Avoid storing near reactive chemicals. Store at room temperature, typically between 15 - 30°C, to maintain its stability for reliable performance in various applications.
Shipping	Ethylenediaminetetraacetic Acid Tetrasodium Salt (EDTA 4Na) is shipped in well - sealed containers to prevent moisture absorption. Packaging ensures protection during transit, following all relevant chemical shipping regulations.

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General Information

Historical Development

Ethylenediaminetetraacetic Acid Tetrasodium Salt (EDTA 4Na), it is also a chemical product. Its origin can be traced back to the past. At the beginning, various sages studied in the field of chemistry, hoping to find agents with specific properties. After a long period of exploration, EDTA 4Na began to appear in the world.
At that time, science was just emerging, and researchers worked hard on analysis and synthesis. EDTA 4Na has gradually become more and more important for its unique chelating properties. In industry, it helps to separate and purify metal ions; in medicine, it can help to stabilize drugs. With the passage of time and the advance of science and technology, the understanding of EDTA 4Na has also deepened. Its application is widely used in various industries, adding an important touch to the evolution of the chemical field and having a profound impact on human life.

Product Overview

The tetrasodium salt of ethylenediaminetetraacetate (EDTA 4Na) is also a good chemical product. Its shape may be a white crystalline powder with good water solubility. This product has remarkable functions in many fields. In chemical analysis, it is often a chelating agent for metal ions, which can precisely complex a variety of metal ions and assist in component determination. In industrial production, such as textiles and papermaking, it can remove metal ions from water to prevent them from causing stains and precipitation. In the field of medicine, it is also used as an anticoagulant for blood to keep blood flowing. EDTA 4Na, with its unique chemistry, has developed its strengths in various industries and is an indispensable material for chemical research and industrial practice.

Physical & Chemical Properties

The tetrasodium salt of ethylenediaminetetraacetic acid (EDTA 4Na) is also a chemical substance. Its physical properties are often white crystalline powder, which is easily soluble in water, and its solution state has good stability. In terms of chemical properties, EDTA 4Na has strong chelating ability and can closely combine with a variety of metal ions to form a stable complex. This property makes it widely used in many fields, such as water quality treatment, which can remove metal impurities in water; in chemical production, to help control the reaction process; in analytical chemistry, it is a commonly used titration reagent. The physical and chemical characteristics of EDTA 4Na make it play an important role in modern chemical-related industries and play a significant role.

Technical Specifications & Labeling

There are Ethylenediaminetetraacetic Acid Tetrasodium Salt EDTA 4Na products today, and its technical specifications and identification (product parameters) are the key. This product needs to be clearly defined in purity, such as the content should be accurate, and the impurity composition must be limited in detail. Its appearance should be accurately described, either in powder form or in crystalline form. In the logo, the trade name, chemical formula, and content must be clearly marked, and the packaging specifications should also be clear, such as the weight of each package. The production batch and production date should be marked in detail for traceability. In this way, the quality of this product can be relied on in various applications, the user should be kept, and the technical specifications and labels should be perfect to meet all needs.

Preparation Method

To prepare the tetrasodium salt of ethylenediamine tetraacetic acid (EDTA 4Na), the method is as follows: Prepare the raw materials first, ethylenediamine, chloroacetic acid, etc. are all important substances. Chloroacetic acid is combined with ethylenediamine in an alkaline environment at an appropriate temperature. When reacting, make sure it is uniform and stable, control its rate, and avoid other changes. After the reaction is completed, apply purification techniques to remove its impurities and make the product pure. Can be recrystallized and other methods to obtain pure EDTA 4Na. This preparation process, raw materials, reaction steps, and purification mechanisms are all heavy, and all are indispensable to obtain high-quality products.

Chemical Reactions & Modifications

Ethylenediaminetetraacetic Acid Tetrasodium Salt, or EDTA 4Na, the chemical reaction and modification of this substance is quite critical. In chemical experiments, EDTA 4Na often shows a unique reaction. It can complex with many metal ions to form a stable complex, which is widely used in water quality treatment, chemical analysis and other fields.
However, its reaction also needs improvement. The initial reaction rate may be unsatisfactory, affecting the experimental process and production efficiency. Therefore, chemists have worked hard to explore modification methods. After repeated tests, it was found that adjusting the reaction temperature, pH and other conditions can optimize its reaction performance.
Attempts have also been made to add specific catalysts to catalyze the reaction of EDTA 4Na, making the reaction more efficient and improving product performance, in order to better meet the diverse needs of industry and scientific research and play its greater role.

Synonyms & Product Names

Ethylenediaminetetraacetic Acid Tetrasodium Salt (EDTA 4Na), this product has a wide range of uses. Its synonymous names are many, and the trade names are also different. In the industrial field, it is often called sodium salt of complexing agent. Because of its strong complexing properties, it can combine with a variety of metal ions, and is indispensable in electroplating, printing and dyeing industries. In daily chemical products, or chelating agent tetrasodium, it helps to stabilize the formula and improve the quality of products. In medicine, or medicinal complexing aids, it assists in the stability of drug ingredients and ensures the efficacy. Synonyms and trade names vary according to industry needs and application scenarios, but they all refer to this tetrasodium salt of ethylenediamine tetrasodium, which is a key substance in the chemical industry.

Safety & Operational Standards

"Product Safety and Operation Specifications for EDTA 4Na"
The product of EDTA 4Na is also a chemical product. Its properties are different, and it has many applications in industrial and scientific research fields. If you want to use it, you must first clarify its safety and operation specifications.
The most important thing for safety is protection. If this thing touches the skin, rinse it with water as soon as possible, and it may cause discomfort for a long time. If it enters the eye, you must urgently rinse it with a lot of water and seek medical treatment. And although its gas is not harmful, it should also be ventilated in a closed place to avoid gas accumulation.
The rules of operation are the most rigorous. When taking it, use clean utensils and take it according to the amount. Do not be greedy for too much waste, and avoid making mistakes due to too little. When mixing, slowly enter and stir evenly to prevent overreaction. When storing, it should be placed in a dry and cool place, away from fire and heat sources, to prevent its qualitative change.
Anyone who handles this thing must be familiar with this safety and operation rule. From it, things can be done without danger; if they are not, disasters may arise. Therefore, we must be cautious and follow the rules, so that we can make good use of EDTA 4Na to promote scientific research and industry.

Application Area

EDTA tetrasodium is a delicate chemical. Its application field is quite wide. In industry, it can be used as a water softener, which can remove calcium and magnesium ions in water, make the water clear, prevent scaling, and ensure the smooth flow of equipment pipelines. In the field of daily chemicals, detergents are often used to increase the power of decontamination, help wash clothes, and make them new. In the field of medicine, it can be used as an anticoagulant, stabilize blood components, and then test and analyze. It can also be used in the food industry to chelate metal ions, prevent oxidative deterioration of food, and extend its shelf life. This EDTA tetrasodium, with its unique properties, has extraordinary achievements in various fields, and is really a treasure of chemical applications.

Research & Development

The industry of chemical industry is changing with each passing day, and new products emerge one after another. Ethylenediaminetetraacetic Acid Tetrasodium Salt (EDTA 4Na) has attracted much attention in our research.
We studied it to clarify its properties and explore its use. At the beginning, we analyzed its structure to know its chemical quality. Then, try its effect in various fields. In medicine, it may help stabilize drugs; in printing and dyeing, it can regulate the condition of dye liquids.
However, the road of research and development is bumpy. To expand its use, we must break through the limitations of technology. After months of research, it has gradually become effective. Today, the application of EDTA 4Na is gradually widening in all walks of life. We should also make unremitting efforts to expand our ambitions in the future and add a bright light to the field of chemical industry.

Toxicity Research

The industry of chemical industry is related to people's livelihood, but the study of poisons is also a priority. Today there is Ethylenediaminetetraacetic Acid Tetrasodium Salt EDTA 4Na, and the research on its toxicity cannot be ignored.
EDTA 4Na is widely used in industry, but what is the impact of it when it enters the environment or organisms? There are companies who should study it in detail. Scholars who observe Fugu must investigate its origin when exploring physical properties. To study the toxicity of this substance today, it is necessary to observe its diffusion in water, soil and gas, and its effect on organisms.
In other words, when it is at a low concentration, there is no significant harm to organisms, but the concentration gradually increases, and there is a fear of aberration. Such as the growth of plants, animal metabolism, all should be carefully investigated. This is related to the ecological balance, the safety of people's livelihood, we chemical researchers, how can we be careless? Therefore, the study of toxicity should be studied in detail with scientific methods to solve this doubt for the world and protect the health of all things.

Future Prospects

Guanfu Ethylenediaminetetraacetic Acid Tetrasodium Salt (EDTA 4Na) is widely used in today's chemical field. It softens water quality, can chelate metal ions, make water pure, and has significant effect. In medicine, it can be used as an anticoagulant to protect the quality of blood.
Looking forward to the future, technology is new, and EDTA 4Na should also be further expanded. Researchers may be able to find new ways to synthesize materials and make them better; in the environment of environmental protection, it helps degrade pollutants. And its performance may be refined, the production method may be improved, the cost will be lower, and the efficiency will be higher. In the future, EDTA 4Na will surely emerge in more fields, contribute to human well-being, and achieve an extraordinary future.

Frequently Asked Questions

Ethylenediaminetetraacetic Acid Tetrasodium Salt EDTA 4Na

EDTA 4Na has a wide range of uses and is widely used in many fields such as industry, medicine, and scientific research.
In the industrial field, it is crucial for water quality treatment. Metal ions such as calcium and magnesium in water are prone to scale formation, which affects the operation of industrial equipment. EDTA 4Na can strongly chelate with these metal ions, preventing them from forming scale and ensuring the smooth operation of industrial pipelines and equipment. For example, in thermal power plants, it can protect boilers from scale erosion, improve heat transfer efficiency, and reduce energy consumption. In the paper industry, it can remove metal ions from pulp, prevent paper yellowing, reduce strength, and protect paper quality.
In the pharmaceutical field, EDTA 4Na also has important functions. It is commonly used in the treatment of heavy metal poisoning, and can chelate with heavy metal ions such as lead and mercury in the body, promoting its excretion from the body and relieving the danger of poisoning. In pharmaceutical preparations, it can be used as a stabilizer to bind with trace metal ions to prevent drug oxidation and decomposition, and prolong the shelf life of drugs.
In the field of scientific research, EDTA 4Na is a commonly used reagent. In molecular biology experiments, when DNA or RNA is extracted, metal ions in the system can be removed, and anti-nuclease depends on the activity of metal ions to cause nucleic acid degradation. In analytical chemistry, it is used for complexometric titration to accurately determine the concentration of metal ions in solution according to quantitative reaction with metal ions. EDTA 4Na plays an important role in different fields due to its unique chelating properties, providing strong support for industrial production, human health, and scientific research.

Ethylenediaminetetraacetic Acid Tetrasodium Salt EDTA 4Na is widely used in which industries

EDTA-4Na is widely used in various industries. In the daily chemical industry, it is often found in detergents. Because EDTA-4Na has a strong chelating power, it can be combined with metal ions such as calcium and magnesium in water to soften water, which can improve the decontamination effect of detergents, and effectively prevent fabrics from yellowing and hardening due to metal ion deposition.
In the pharmaceutical industry, EDTA-4Na is also indispensable. In pharmaceutical preparations, it can be used as a stabilizer to chelate metal ions to prevent metal ions from catalyzing reactions such as oxidation and hydrolysis of drugs, thereby ensuring drug quality and stability. In addition, in some treatments for heavy metal poisoning, EDTA-4Na can form a stable complex with heavy metal ions in the body and help them excrete from the body.
In the food industry, EDTA-4Na is also useful. It is often used as a food additive to exert the effects of preservatives and antioxidants. By chelating metal ions, it can inhibit the oxidation, browning and microbial growth of food caused by metal ions, prolong the shelf life of food, and maintain the color and flavor of food.
In the industrial field, EDTA-4Na is widely used in the electroplating industry. It can control the concentration of metal ions in the plating solution, ensure the uniform and dense coating, and improve the quality of the coating. In the paper industry, it can remove metal ions from pulp to prevent paper discoloration and strength loss. In the printing and dyeing industry, it can improve the coloring rate and leveling of dyes, resulting in better printing and dyeing results.
In summary, EDTA-4Na plays an important role in daily chemical, pharmaceutical, food and many industrial industries due to its unique chelating properties, and has a profound impact on product quality and production processes in various industries.

Ethylenediaminetetraacetic safety of Acid Tetrasodium Salt EDTA 4Na

EDTA 4Na, which is a chemical substance, is concerned with its safety and should be carefully observed.
Looking at its chemical properties, EDTA 4Na has strong complexing power and is often used in industry, medicine and other fields. In industry, or used for water softening, removing metal ions such as calcium and magnesium in water, and preventing the formation of scale. However, if this process is not properly disposed of, it may cause environmental impact. Its discharge into water, or change the chemical properties of water, can disturb the living environment of aquatic organisms. Covers aquatic organisms are sensitive to changes in water quality, changes in water composition, or affect their physiological activities such as respiration and reproduction.
In the field of medicine, EDTA 4Na can be used as an antidote for heavy metals. By virtue of its complexation properties, it binds to heavy metal ions in the body to promote their excretion. However, there are also risks when taking medication. If the dose is inappropriate, or in addition to heavy metals, it also complexes with essential metal ions in the body such as zinc and iron, causing imbalance of metal ions in the body and causing adverse reactions such as anemia and decreased immune function.
In addition, EDTA 4Na irritates the skin and eyes. When people come into contact with this substance, the skin may feel tingling, redness and swelling, and the eyes may cause discomfort or damage. Therefore, when handling this substance, be prepared with protective equipment, such as gloves, goggles, etc., to avoid direct contact.
In summary, although EDTA 4Na has important uses in many fields, its safety needs to be treated with caution. Those who use it must be familiar with its characteristics and risks, and operate according to regulations. When ensuring its efficacy, it minimizes the harm to the human body and the environment.

Ethylenediaminetetraacetic Acid Tetrasodium Salt EDTA 4Na compared to other similar products

EDTA 4Na has three advantages over other similar products.
First, it has strong complexing power. EDTA 4Na has a specific chemical structure and can quickly and stably complex with many metal ions, such as calcium, magnesium, iron, copper, etc. This property is extremely beneficial in the fields of water softening, industrial cleaning, papermaking, etc. In the softening of water, it can chelate calcium and magnesium ions in water efficiently, reduce its hardness, and prevent the formation of scale. Compared with congeneric products, it can more effectively maintain the smooth pipeline of equipment and reduce maintenance costs.
Second, good stability. EDTA 4Na can maintain stability over a wide pH range and is not easily disturbed by external environmental factors. In chemical reactions and industrial processes under different acid and alkali conditions, its complexation effect can be stably exerted. In the printing and dyeing industry, whether the dye is acidic or alkaline, EDTA 4Na can stably complex metal ions, ensuring a uniform dyeing effect. Compared with similar products, it has stronger adaptability to the dye environment.
Third, good compatibility. EDTA 4Na is compatible with many chemical substances and can be used in conjunction with surfactants, additives, etc., to improve overall efficiency. In detergent formulations, it is combined with various active ingredients to enhance the decontamination ability and help remove stains containing metal ions, while some congeneric products may limit their application scope due to poor compatibility.
In summary, EDTA 4Na shows outstanding advantages in many fields due to its strong complexicity, high stability and good compatibility, and is favored by many industries.

Ethylenediaminetetraacetic Acid Tetrasodium Salt EDTA 4Na

Ethylenediaminetetraacetic Acid Tetrasodium Salt, or EDTA 4Na, is a very important chemical substance. Its storage conditions are crucial to its quality and stability.
EDTA 4Na should be stored in a cool and dry place. Due to high temperature, it may cause chemical changes that affect its chemical properties and efficacy. In a humid environment, EDTA 4Na is prone to moisture absorption, which may cause agglomeration, and will also have adverse effects on its purity and use effect.
Furthermore, the storage place should be well ventilated. Good ventilation can avoid potential erosion or other adverse reactions to EDTA 4Na due to local gas accumulation. At the same time, it needs to be stored separately from oxidants, acids and other substances. EDTA 4Na may chemically react with these substances, resulting in dangerous conditions or reducing its own quality.
Containers for storing EDTA 4Na should also be selected with caution. Containers with good sealing performance should be used to prevent them from deteriorating in contact with components in the air. It is common to store in plastic drums or iron drums lined with plastic film to ensure a tight seal and effectively prevent external factors from interfering.
During the storage of EDTA 4Na, the above conditions must be followed to ensure that its quality and performance are not damaged, so that it can play its role normally in many fields, such as industrial production, chemical analysis, medicine, etc.