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Diethyl Diallyl Ammonium Chloride(DEDAAC)
|
HS Code |
475209 |
| Chemical Formula | C10H18ClN |
| Molecular Weight | 191.71 |
| Appearance | Colorless to slightly yellow transparent liquid |
| Solubility | Soluble in water |
| Boiling Point | Around 100 - 102 °C (at reduced pressure) |
| Density | Approx. 1.04 g/cm³ |
| Ph Aqueous Solution | 4 - 6 |
| Flash Point | Above 100 °C |
| Polymerization Ability | Can polymerize to form cationic polymers |
| Stability | Stable under normal conditions, but may decompose on exposure to strong oxidizing agents |
As an accredited Diethyl Diallyl Ammonium Chloride(DEDAAC) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 5 - gallon drum packaging for Diethyl Diallyl Ammonium Chloride (DEDAAC). |
| Storage | Diethyl diallyl ammonium chloride (DEDAAC) should be stored in a cool, dry, and well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in tightly - sealed containers to prevent moisture absorption and evaporation. Avoid storage near incompatible substances to prevent potential chemical reactions. |
| Shipping | Diethyl Diallyl Ammonium Chloride (DEDAAC) is shipped in tightly - sealed, corrosion - resistant containers. Special care is taken to prevent leakage during transit due to its chemical nature. It follows strict hazardous material shipping regulations. |
Competitive Diethyl Diallyl Ammonium Chloride(DEDAAC) prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615371019725 or mail to sales7@bouling-chem.com.
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Tel: +8615371019725
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Historical Development
The industry of chemical industry is changing with each passing day. There is a name Diethyl Diallyl Ammonium Chloride (DEDAAC), and there is a reason for its popularity. In the past, the sages of chemistry studied the properties of substances, and they studied the art of polymerization. At the beginning, the exploration was not deep, and only a little bit of its characteristics were known.
Over the years, everyone worked hard, and the experiments accumulated, gradually realizing the wonders of its polymerization, which can be used in various fields. Since then, DEDAAC has emerged in the papermaking, textile and other industries, and its effectiveness has become increasingly apparent. From the beginning of ignorance to the skilled use, it is actually the efforts of researchers of all dynasties that have made this substance occupy a place in the forest of chemical industry. The track of its development is also a clear proof of chemical evolution.
Over the years, everyone worked hard, and the experiments accumulated, gradually realizing the wonders of its polymerization, which can be used in various fields. Since then, DEDAAC has emerged in the papermaking, textile and other industries, and its effectiveness has become increasingly apparent. From the beginning of ignorance to the skilled use, it is actually the efforts of researchers of all dynasties that have made this substance occupy a place in the forest of chemical industry. The track of its development is also a clear proof of chemical evolution.
Product Overview
Today there is a chemical called Diethyl Diallyl Ammonium Chloride (DEDAAC). This substance has unique properties and a wide range of uses. It is a cationic monomer with high charge density and good chemical activity.
In the polymerization reaction, DEDAAC is often a key raw material and can be copolymerized with a variety of monomers to produce many polymers with excellent properties. In the field of water treatment, the polymer prepared from it can be used as a flocculant to help purify water bodies, make impurities settle, and maintain pure water quality. In the paper industry, it can also enhance paper strength and optimize retention and filtration effects.
From this perspective, DEDAAC is indispensable in the chemical industry and is of great significance for promoting industrial development and improving production efficiency.
In the polymerization reaction, DEDAAC is often a key raw material and can be copolymerized with a variety of monomers to produce many polymers with excellent properties. In the field of water treatment, the polymer prepared from it can be used as a flocculant to help purify water bodies, make impurities settle, and maintain pure water quality. In the paper industry, it can also enhance paper strength and optimize retention and filtration effects.
From this perspective, DEDAAC is indispensable in the chemical industry and is of great significance for promoting industrial development and improving production efficiency.
Physical & Chemical Properties
Taste the technology of chemical industry, there is a thing called Diethyl Diallyl Ammonium Chloride (DEDAAC). This material is unique and has both physical and chemical properties. Looking at its physics, it is often colorless to slightly yellow transparent liquid, stable, miscible with water, and has good solubility.
On its chemical properties, it contains special functional groups, active and responsive. It can participate in a variety of polymerization reactions and is an important agent for the synthesis of new polymer materials. Its ionic properties enable it to show unique effects in many chemical processes. In the field of scientific research, the study of this material can pave the way for the creation of new materials and the improvement of processes, hoping to develop its potential and contribute to the progress of chemical industry.
On its chemical properties, it contains special functional groups, active and responsive. It can participate in a variety of polymerization reactions and is an important agent for the synthesis of new polymer materials. Its ionic properties enable it to show unique effects in many chemical processes. In the field of scientific research, the study of this material can pave the way for the creation of new materials and the improvement of processes, hoping to develop its potential and contribute to the progress of chemical industry.
Technical Specifications & Labeling
Today there is Diethyl Diallyl Ammonium Chloride (DEDAAC), which is crucial to its technical specifications and identification (product parameters). Its technical specifications need to be accurate and accurate, which is related to product quality. Identification (product parameters) is also indispensable, which can clarify its characteristics, uses, etc.
In the preparation method, the reaction conditions, such as temperature, duration, and material ratio, should be controlled according to strict procedures to ensure that the product meets the standard. When testing, use appropriate methods to measure its purity, impurity content and other parameters to ensure high quality.
When the product is ready, the packaging and storage should not be ignored. Choose the appropriate packaging to prevent damage and deterioration. Store in a suitable place, away from high temperature and humidity, to extend its shelf life, so as to obtain high-quality DEDAAC products.
In the preparation method, the reaction conditions, such as temperature, duration, and material ratio, should be controlled according to strict procedures to ensure that the product meets the standard. When testing, use appropriate methods to measure its purity, impurity content and other parameters to ensure high quality.
When the product is ready, the packaging and storage should not be ignored. Choose the appropriate packaging to prevent damage and deterioration. Store in a suitable place, away from high temperature and humidity, to extend its shelf life, so as to obtain high-quality DEDAAC products.
Preparation Method
In the method of making DEDAAC, diethylamine and chloropropene are also the raw materials. Put the two in a reaction kettle according to a certain proportion. Control the temperature to an appropriate degree, and this reaction needs to be gradual. At the beginning, slowly heat up, observe the reaction situation, and do not overdo it. When it is stable, continue to adjust the temperature to ensure that the reaction goes forward.
After the reaction is completed, the product may contain impurities and needs to be refined. First, filter it to remove its insoluble matter. Then use the technique of distillation to separate the ingredients according to the different boiling points to obtain pure DEDAAC.
The key to the preparation of
is precise temperature control and the ratio of raw materials. If the temperature is too high, the side reactions will be raw; if it is too low, the reaction will be slow. Improper proportion of raw materials also damages the purity and yield of the product. And in the reaction process, a monitoring mechanism needs to be set up to observe the reaction process and product quality at any time to achieve the best preparation effect.
After the reaction is completed, the product may contain impurities and needs to be refined. First, filter it to remove its insoluble matter. Then use the technique of distillation to separate the ingredients according to the different boiling points to obtain pure DEDAAC.
The key to the preparation of
is precise temperature control and the ratio of raw materials. If the temperature is too high, the side reactions will be raw; if it is too low, the reaction will be slow. Improper proportion of raw materials also damages the purity and yield of the product. And in the reaction process, a monitoring mechanism needs to be set up to observe the reaction process and product quality at any time to achieve the best preparation effect.
Chemical Reactions & Modifications
Tasting and hearing the industry of chemical industry is related to the change of all things. Among them, DEDAAC is the key to chemical research. Its chemical reaction, such as the symmetry of yin and yang, changes all over the world. If you want to be good at something, you must understand the reason for it. When reacting, the harmony of all things, whether warm or strong, obeys the laws of chemistry.
As for changing its nature, you need to evaluate the situation, observe the similarities and differences in its quality, and control its corresponding conditions. Temperature, pressure, and the amount of agent are all key. According to the ancient law, Yudding solved the cow, and he was imperfect. Only by understanding the texture can he turn the ordinary into a miracle, so that the nature of DEDAAC can be done according to his will and not exceed the rules. It should be used for all needs and benefit the world.
As for changing its nature, you need to evaluate the situation, observe the similarities and differences in its quality, and control its corresponding conditions. Temperature, pressure, and the amount of agent are all key. According to the ancient law, Yudding solved the cow, and he was imperfect. Only by understanding the texture can he turn the ordinary into a miracle, so that the nature of DEDAAC can be done according to his will and not exceed the rules. It should be used for all needs and benefit the world.
Synonyms & Product Names
In the field of chemical industry, there is a thing called Diethyl Diallyl Ammonium Chloride (DEDAAC). This thing also has different nicknames and trade names, all of which are related to its properties and uses.
Or it is diethyldiallyl ammonium chloride, which is named according to its chemical structure. There are also those who call it by the name of a commodity, which is due to the circulation between cities, and various merchants give it a special name for their characteristics.
Guanfu DEDAAC, in the chemical industry, has a wide range of uses. Or used in polymerization reactions, as a monomer to form a polymer, its polymer has special properties, and has extraordinary effects in water treatment, papermaking and other industries. Or because of its charge characteristics, it can also be developed in fabric treatment, etc., making fabrics have different capabilities. Although its nickname and trade name are complex, they all revolve around this thing, which is important to the industry and can benefit various industries.
Or it is diethyldiallyl ammonium chloride, which is named according to its chemical structure. There are also those who call it by the name of a commodity, which is due to the circulation between cities, and various merchants give it a special name for their characteristics.
Guanfu DEDAAC, in the chemical industry, has a wide range of uses. Or used in polymerization reactions, as a monomer to form a polymer, its polymer has special properties, and has extraordinary effects in water treatment, papermaking and other industries. Or because of its charge characteristics, it can also be developed in fabric treatment, etc., making fabrics have different capabilities. Although its nickname and trade name are complex, they all revolve around this thing, which is important to the industry and can benefit various industries.
Safety & Operational Standards
About diethyldiallyl ammonium chloride (DEDAAC) product safety and operation specifications
If the husband of DEDAAC, chemical substances are also. Its characteristics are specific, and it is related to safety and operation regulations, which cannot be ignored.
The road to safety is the first protection. Anyone involved in this object should prepare suitable protective equipment. For visual objects, goggles are required to prevent them from splashing in, so as not to hurt the eyes; for hand operation, protective gloves should be worn to prevent them from touching the skin and causing damage to the skin. The protection of the body should not be ignored. Protective clothing should be used to keep the body intact.
The rules of operation should be followed carefully. Do it in a well-ventilated place to avoid its gasification and harm to the body. The amount should be used accurately, and it should not be increased or decreased at will. When mixing and stirring, the rate should be moderate, so as not to overdo it and cause the reaction to go out of control.
The method of storage also has rules. It should be placed in a cool and dry place to avoid fire and heat to prevent it from deteriorating or causing danger. And it should be stored separately from other things to avoid interaction and unexpected changes.
If you accidentally touch it, rinse it with water as soon as possible. Those who enter the eye should seek medical attention after flushing; those who enter the body should seek medical help quickly without delay.
These are all DEDAAC safety and operation regulations. Practitioners should keep them in mind and practice them in action to ensure safety and promote the prosperity of the industry.
If the husband of DEDAAC, chemical substances are also. Its characteristics are specific, and it is related to safety and operation regulations, which cannot be ignored.
The road to safety is the first protection. Anyone involved in this object should prepare suitable protective equipment. For visual objects, goggles are required to prevent them from splashing in, so as not to hurt the eyes; for hand operation, protective gloves should be worn to prevent them from touching the skin and causing damage to the skin. The protection of the body should not be ignored. Protective clothing should be used to keep the body intact.
The rules of operation should be followed carefully. Do it in a well-ventilated place to avoid its gasification and harm to the body. The amount should be used accurately, and it should not be increased or decreased at will. When mixing and stirring, the rate should be moderate, so as not to overdo it and cause the reaction to go out of control.
The method of storage also has rules. It should be placed in a cool and dry place to avoid fire and heat to prevent it from deteriorating or causing danger. And it should be stored separately from other things to avoid interaction and unexpected changes.
If you accidentally touch it, rinse it with water as soon as possible. Those who enter the eye should seek medical attention after flushing; those who enter the body should seek medical help quickly without delay.
These are all DEDAAC safety and operation regulations. Practitioners should keep them in mind and practice them in action to ensure safety and promote the prosperity of the industry.
Application Area
Diethyl Diallyl Ammonium Chloride (DEDAAC) is widely used. In the field of papermaking, it can be used as a retention and filter aid to keep fibers and fillers better, and the uniformity and strength of paper products increase. In the water treatment industry, it is a cationic flocculant, which can efficiently remove suspended particles and organic impurities in water and clarify water bodies. In oilfield operations, it is used as a drilling fluid additive to stabilize well walls, reduce filtration loss, and ensure smooth mining. When fabric is finished, it can give fabric antistatic and antibacterial properties. In daily chemical products, it can be used as a conditioning agent to optimize product texture. From this perspective, DEDAAC plays a key role in many fields and promotes the development of various industries.
Research & Development
After considering all aspects, there is now Diethyl Diallyl Ammonium Chloride (DEDAAC). We have studied it, and its properties are unique and widely used.
In the process of research, we have carefully observed its chemical quality and explored its reaction rules. After many experiments, it has been shown that it can combine with various substances to produce different new qualities with outstanding performance.
Looking at its development, the prospect is bright. In the field of industry, it can be used as an auxiliary to make products of high quality; in the field of scientific research, it is a key material to help explore unknown secrets. Our generation should study diligently and make unremitting progress, hoping to dig deep into its potential, promote its development, and benefit the world, so that it can shine in various industries and be used by the world, so as to become the ambition of our scientific research.
In the process of research, we have carefully observed its chemical quality and explored its reaction rules. After many experiments, it has been shown that it can combine with various substances to produce different new qualities with outstanding performance.
Looking at its development, the prospect is bright. In the field of industry, it can be used as an auxiliary to make products of high quality; in the field of scientific research, it is a key material to help explore unknown secrets. Our generation should study diligently and make unremitting progress, hoping to dig deep into its potential, promote its development, and benefit the world, so that it can shine in various industries and be used by the world, so as to become the ambition of our scientific research.
Toxicity Research
There is a substance today, named Diethyl Diallyl Ammonium Chloride (DEDAAC), and our generation focuses on its toxicity. Looking at this substance, it may have its uses in various fields, but the study of toxicity should not be ignored. The ancient research on toxicity was cautious and careful, and it should be the case today. To understand the toxicity of DEDAAC, it is necessary to use scientific methods to observe its impact on living beings, or apply it to insects and rats, observe its state, and measure its physiological changes. It also examines its state of retention and migration in the environment, and studies its harm to water, soil and vegetation. In this way, the truth of DEDAAC toxicity can be obtained, in order to use it to avoid harm and protect the health of all living beings and the environment.
Future Prospects
Diethyl Diallyl Ammonium Chloride (DEDAAC) is a unique product with a wide range of uses. In today's world, it has been seen emerging in many fields. However, my generation looks to the future, and I feel its potential is infinite.
In the future, we may make great strides in the way of material innovation, and use its characteristics to produce more tough, durable and special properties materials, which will contribute to the construction, manufacturing and other industries. It is also expected to shine in the field of biomedicine, or help the accurate delivery of drugs, or build an excellent framework for tissue engineering.
Although there may be thorns ahead, with today's scientific research and unremitting research, we will be able to fully stimulate the potential of this DEDAAC, achieve extraordinary achievements, and seek well-being for future generations.
In the future, we may make great strides in the way of material innovation, and use its characteristics to produce more tough, durable and special properties materials, which will contribute to the construction, manufacturing and other industries. It is also expected to shine in the field of biomedicine, or help the accurate delivery of drugs, or build an excellent framework for tissue engineering.
Although there may be thorns ahead, with today's scientific research and unremitting research, we will be able to fully stimulate the potential of this DEDAAC, achieve extraordinary achievements, and seek well-being for future generations.
Where to Buy Diethyl Diallyl Ammonium Chloride(DEDAAC) in China?
As a trusted Diethyl Diallyl Ammonium Chloride(DEDAAC) manufacturer, we deliver:
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As a leading Diethyl Diallyl Ammonium Chloride(DEDAAC) supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What are the main application fields of diethyldiallyl ammonium chloride (DEDAAC)?
Diethylamino silver dithiocarboxylate (DEDAAC) is used in many fields.
In the field of chemical analysis, it is often a key reagent for detecting arsenic in substances. Because arsenide and diethylamino silver dithiocarboxylate can chemically react under specific conditions to produce a red colloidal silver, the arsenic content can be accurately determined by colorimetry or spectrophotometry. This is used in water quality monitoring and food testing, which is crucial to people's livelihood and health. If you want to find out whether the water source is contaminated with arsenic, in order to ensure the safety of people's drinking water; to check whether the food has excessive arsenic, and to protect the health of people's diet, DEDAAC is an indispensable thing.
In the metallurgical industry, it also has its own function. In ore analysis, it can help identify whether arsenic is contained in ore and the amount of arsenic. In the metallurgical process, the presence of arsenic or the influence of metal quality. With DEDAAC to measure arsenic, metallurgists can adjust the process according to the situation, remove arsenic to improve metal purity, and cast high-quality materials. It is of great significance in industries that require high-quality metals such as machinery manufacturing and electronics industry.
In the field of environmental monitoring, it also plays a role. When monitoring the degree of arsenic pollution in soil and atmosphere, DEDAAC provides an effective means of detection. By detecting the arsenic content in soil, we can know the status of land pollution and determine remediation policies; by measuring the concentration of arsenic in the atmosphere, we can clarify the air quality, provide a basis for environmental protection measures, and protect the ecological environment
In summary, silver diethylaminodithiocarboxylate plays an important role in the fields of analysis and testing, metallurgy, and environmental monitoring, contributing to the development of various industries, the safety of people's lives, and the protection of the ecological environment.
What are the physical and chemical properties of diethyldiallyl ammonium chloride (DEDAAC)?
The physicochemical properties of silver diethylaminodithiocarboxylate (DEDAAC) are particularly important. This substance is yellowish in color, often crystalline, and stable at room temperature.
In terms of solubility, it is soluble in organic solvents such as chloroform and carbon tetrachloride, but less soluble in water. This property makes it possible to extract and separate it with organic solvents in many chemical operations.
Its melting point is about 172-174 degrees Celsius. When heated to this temperature, the substance converts from solid to liquid. The value of the boiling point is also related to its volatilization characteristics. Under suitable conditions, it will gradually gasify.
In terms of chemical activity, silver ions in silver diethylaminodithiocarboxylate have certain oxidizing properties and can react with many reducing substances. Its thiocarboxylate root can also complex with metal ions. With this characteristic, it is often used in the analysis and detection of metal ions.
In chemical reactions, it can participate in oxidation reduction, coordination and other reaction types. Because of its special structure and properties, it is widely used in environmental monitoring, drug analysis, metallurgy and other fields. In environmental monitoring, it can be used to detect metal pollution in water and soil by its reaction with specific metal ions; in drug analysis, it may help to identify the composition and purity of drugs; in metallurgy, it may help to separate and purify metals.
What are the precautions for diethyldiallyl ammonium chloride (DEDAAC) in the production process?
Diethylaminodiethoxysilane (DEDAAC) requires attention to several things during the production process.
The first priority is safety protection. This substance may be irritating, touching the skin, eyes, or entering the respiratory tract, which can cause discomfort. Therefore, when working, it is necessary to wear suitable protective gear, such as gloves, goggles, gas masks, etc., to avoid contact with the human body. And the workplace should be well ventilated, so that the volatile gas can be dissipated in time, reducing the concentration in the air and reducing the risk of harm.
The second is the storage method. When stored in a cool, dry and well-ventilated place, away from fire and heat sources. Because it is a chemical, or reacts with other substances, it needs to be stored separately from oxidants, acids, etc., and should not be mixed to prevent accidents.
Furthermore, at the time of use, the operation is accurate and standardized. Take the amount according to the established process and ratio, and do not exceed the regulations. Stirring, mixing and other operations should be stable and uniform to ensure uniform reaction. At the same time, closely observe the reaction situation. If there is any abnormality in parameters such as temperature and pressure, take measures quickly.
Repeat, equipment maintenance is also critical. Equipment and pipelines used in production need regular inspection to ensure their airtightness and excellent performance. If there is damage or leakage, stop the operation immediately and replace the parts to avoid material leakage and damage.
Also, waste disposal should not be ignored. Do not discard the waste, residual liquid, etc. remaining in production at will. According to environmental protection regulations, classify and collect them, and handle them properly to avoid polluting the environment.
In conclusion, the production process of diethylaminodiethoxysilane is all important, and caution is required in order to achieve safe, stable and efficient production.
What is the market outlook for diethyldiallyl ammonium chloride (DEDAAC)?
Diethylaminodihydroxydiethylaminobismuth oxide (DEDAAC), its market prospects are related to various factors, and let me elaborate.
From the perspective of its characteristics and uses, DEDAAC has unique chemical properties and may be of considerable use in various fields such as medicine and chemical industry. In the field of medicine, it may have specific pharmacological activities or can be used to develop new drugs for the treatment of diseases. If its pharmacological effects are rigorously tested and clinically verified to be effective and safe, it will attract the attention of the pharmaceutical industry, and the market demand may grow rapidly.
In the chemical industry, DEDAAC may be used as a special additive to develop its capabilities in material modification. If the material can be made to have better stability, solubility and other characteristics, thereby expanding the scope of material applications. If such applications are proven to be feasible and cost-effective in practice, the demand for them in the chemical industry will also grow.
However, the market prospect also faces challenges. R & D costs are one of them. To make DEDAAC reach a practical level, a lot of manpower, material and financial resources need to be invested from laboratory research to industrial production. If the R & D process encounters technical bottlenecks, resulting in high costs and expensive products when they are introduced to the market, market demand may be suppressed.
Furthermore, regulations and policies have a great impact. The pharmaceutical field is highly regulated for drug approval. If DEDAAC is used for pharmaceutical purposes, it must go through a long and strict approval process. If the regulatory requirements cannot be met, even if it has good characteristics, it will be difficult to enter the market. In the chemical industry, there are also regulatory restrictions such as environmental protection. If the production process of DEDAAC does not meet environmental protection standards, it will also be blocked.
And market competition should not be underestimated. If products of the same type with similar functions already exist in the market and occupy a certain share, DEDAAC wants to win a place, it needs to have significant advantages in performance, price, service, etc.
To sum up, although the market prospect of DEDAAC has potential, it also faces many challenges such as research and development costs, regulations and policies, and market competition. Only by properly dealing with various problems can we seek opportunities for development in the market and open up broad prospects.
What are the advantages of diethyldiallyl ammonium chloride (DEDAAC) over other similar products?
Diethylaminodihydroxyethylbenzyl ammonium chloride (DEDAAC) has many advantages over other similar products.
First, it has excellent antibacterial properties. DEDAAC has a unique structure. The quaternary ammonium salt groups it contains can efficiently adsorb and destroy the cell membranes of bacteria, fungi and other microorganisms, causing its contents to leak and die. It has strong bactericidal power, can widely inhibit common harmful bacteria, and has good adaptability to microorganisms in different environments. If it is in a humid and muggy environment, DEDAAC can quickly kill a large number of breeding bacteria, while some congeneric products have poor effect.
Second, it has good stability. It has stable chemical properties and can maintain the activity of active ingredients for a long time under different temperatures and pH conditions. It does not decompose at high temperature, and does not affect the performance when the pH changes. It can be widely used in various environments and products. For example, in high temperature industrial production or in toiletries with different pH values, DEDAAC can play a stable role, while some congeneric products are limited due to poor stability.
Third, excellent compatibility. Can be well compounded with a variety of surfactants, additives, etc., synergistic effect. Compounded with anionic surfactants, can improve decontamination, emulsification ability, and expand the scope of application. In detergent formulations, synergistic effect with other ingredients can significantly enhance the washing effect, while some similar products are difficult to effectively cooperate with other ingredients due to poor compatibility.
Fourth, high safety. It is less irritating to the human body, has low toxicity, and meets relevant safety standards. It is used in personal care products, food packaging and other areas of close contact with people. It can ensure the safety and health of users when ensuring sterilization performance. However, some congeneric products are strictly limited due to safety issues.
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