2-Aminoethylamino Methyl Triethoxysilane

Alkyl Silanes Amino Silanes Sulfur Silanes Phenyl Silanes Vinyl Silanes Acyloxy Silanes Epoxy Silanes Chloro Silanes α Silanes Isocyanato Silanes Mercapto Silanes Alkoxysilane Intermediates Chlorosilane Intermediates

2-Aminoethylamino Methyl Triethoxysilane

Meisheng Chemical

Specifications

HS Code	582531
Chemical Formula	C8H22NO3Si
Molecular Weight	207.35
Appearance	Clear to slightly yellow liquid
Odor	Characteristic amine - like odor
Boiling Point	217 - 218 °C
Melting Point	Below -70 °C
Density	0.945 - 0.955 g/cm³ at 25 °C
Solubility	Soluble in many organic solvents, hydrolyzes in water
Flash Point	96 °C
Refractive Index	1.427 - 1.430 at 20 °C
Ph Aqueous Solution	Basic

Packing & Storage

Packing	25 - kg drum packaging for 2 - Aminoethylamino Methyl Triethoxysilane chemical.
Storage	2 - Aminoethylamino Methyl Triethoxysilane should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly sealed container to prevent moisture absorption, as it may react with water. The storage temperature should be maintained within a range suitable to avoid degradation, typically around 2 - 30°C.
Shipping	2 - Aminoethylamino Methyl Triethoxysilane is shipped in accordance with strict chemical transport regulations. It's typically in sealed, sturdy containers to prevent leakage, transported by carriers trained in handling such chemicals.

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General Information

Historical Development

2-Aminoethylaminomethyltriethoxysilane has a long history of development. In the early years, chemical masters studied the genus of silane and gradually paid attention to this compound. At that time, the exploration was difficult, but its structure and properties were speculated and not conclusive. After several generations, the technology has advanced and the research has deepened. Scholars analyzed its molecular structure and explained its reaction mechanism. At first, the preparation method was complicated and the yield was quite low. However, everyone worked tirelessly, tried new ways repeatedly, and the process became more and more exquisite. In recent times, the use of this compound has been widely expanded, and it has had significant effects in materials, chemical and other fields. Its historical evolution has witnessed the path of chemistry, from ignorance to enlightenment, from simplicity to sophistication, and it will also develop its extraordinary achievements in various fields in the future.

Product Overview

2-Aminoethyl aminomethyl triethoxysilane is a unique compound. It may be a colorless and transparent liquid with specific chemical properties. This product contains aminoethyl, aminomethyl and triethoxysilane groups and has a unique structure. It has a wide range of uses. In the chemical industry, it can be used as a coupling agent to enhance the bonding force between organic and inorganic substances. In terms of material modification, it can improve the properties of materials, such as enhancing the water resistance and wear resistance of materials. In the preparation of some special materials, it also plays a key role in helping to optimize the properties of materials and make them more suitable for specific needs. Its unique chemical structure endows it with unique reactivity, enabling it to participate in a variety of chemical reactions, providing effective assistance for a wide range of industrial production and scientific research.

Physical & Chemical Properties

2-Aminoethyl aminomethyl triethoxysilane, the physical and chemical properties of this substance are quite important. Its shape may be a colorless and transparent liquid with a special odor. From the perspective of physical properties, it has a certain boiling point and melting point, which are related to its state change at different temperatures. Its density is also key, affecting the distribution in various systems. In terms of chemical properties, it is active and reactive because it contains amino and ethoxysilane groups. Amino groups can react with a variety of compounds containing carbonyl groups, carboxyl groups, etc., while ethoxysilane can be hydrolyzed and condensed to form a silica bond network structure. This property makes it widely used in many fields such as surface treatment and composite material preparation, and it is a chemical substance that cannot be ignored.

Technical Specifications & Labeling

There are chemical substances today, named 2 - Aminoethylamino Methyl Triethoxysilane. Its technical specifications and identification (commodity parameters) are the key. The technical specifications of this substance are related to the purity of the ingredients and the stability of the properties. The ingredients should be accurate and the impurities must be small to meet the specific standards. In terms of properties, the appearance, color, etc. are all determined to ensure the same quality. The identification (commodity parameters) cannot be ignored. Key data such as its chemical structure and molecular weight need to be clearly stated, so that users can know its properties in detail. And on the packaging, safety warnings, storage conditions, etc. are readily available to ensure the safety and storage of the product. In this way, the technical specifications and identification (commodity parameters) of this chemical can be properly used in various fields of scientific research and production.

Preparation Method

This product is 2 - Aminoethylamino Methyl Triethoxysilane. Take the raw materials first, mainly silane and ammonia compounds. For silane, when taking pure products, ammonia should also be free of impurities. The process of preparation, first compare the two to the reaction kettle. Control the temperature at a suitable degree, do not use too much or too little, stir slowly to promote the phase and. When the reaction, proceed in sequence, and must not be disorderly. The reaction step is to gradually open the ethoxyl group of the silane and combine with the amino group of the ammonia. Wait for the two to blend, and then adjust it to make the structure stable. As for the catalytic mechanism, choose a high-efficiency catalyst to promote the reaction speed and purity. In this way, you can get good products to meet the needs of all things.

Chemical Reactions & Modifications

2-Aminoethyl aminomethyl triethoxysilane, this chemical substance, its chemical reaction and modification properties, are related to many fields of application. Looking at the reaction, under suitable conditions, the ethoxy group of silane can be hydrolyzed into silica hydroxyl group, and then condensed with the hydroxyl group on the surface of other substances to form a stable chemical bond to achieve surface modification. Its modification is excellent. It can increase the adhesion between materials, and in the composite material, the inorganic phase and the organic phase are closely connected, improving the comprehensive properties of the material. It can also change the wettability of the material, so that its surface properties meet specific needs. And because of the existence of amino groups, it can participate in a variety of chemical reactions, expand the scope of its application, and contribute to the development of materials science. It has considerable prospects in the chemical industry, materials and other industries.

Synonyms & Product Names

2024 2-Aminoethylaminomethyl triethoxysilane, this substance has a wide range of uses. Its aliases are many, such as gamma- (2-aminoethyl) aminopropyl methyl triethoxysilane, which has a variety of names. This product has attracted much attention in the chemical industry and has added color to many processes. Gu Yun: "There are many things, and each shows its own quality." The number of 2-aminoethylaminomethyl triethoxysilane shows its complex characteristics. It may be modified by the material, which seems to add toughness to the material; or it can be treated at the interface, which is like a bridge, so that different phases coexist harmoniously. Many industries have advanced because of its help. In the paint industry, it can increase the adhesion of coatings; in the adhesive industry, it can strengthen the bonding effect. As the ancient books say: "The name is different but the reality is the same, and the use is wide and the function is good." Although the name of this product is different, the effect is well deserved, and it shines in the field of chemical industry.

Safety & Operational Standards

2-Aminoethylaminomethyltriethoxysilane Safety and Operating Specifications 2-Aminoethylaminomethyltriethoxysilane is also a chemical research material. Its properties are special, related to safety and work, and must not be ignored. This product is irritating and can be harmful to the skin, eyes, and respiratory system. Touch the skin, or cause redness, swelling, itching, and pain; if it enters the eyes, it can hurt the eyes and vision. If it is inhaled into the lungs, it can cause coughing, asthma, and difficulty breathing. Therefore, the first thing to pay attention to is the way to protect this product. When operating, you must wear appropriate protective clothing, such as chemical-proof clothing and gloves, which can be separated from the skin. You should also wear goggles and masks to keep your eyes and breathing safe. And the place should be well ventilated and avoid the accumulation of air. There are also regulations for storing this thing. When placed in a cool, dry and ventilated place, avoid fire and heat sources. Do not store with strong oxygen agents or acids to prevent chemical risks. The method of operation must also be in harmony. When measuring, it is appropriate to use a special device, accurately do it, and avoid spillage. When dissolving, slow in in sequence, stir evenly, and observe the state of response. After use, the utensils must be cleaned, and the rest should be disposed of according to the regulations. In case of emergency, there are also countermeasures. For those who touch the skin, rinse with water quickly, and rinse for a long time, and then seek medical treatment. Those who enter the eyes, quickly open the eyelids, buffer with water, and also seek medical treatment. If inhaling, rush to a well-ventilated place, and those who have difficulty breathing, apply artificial respiration, and send them to the hospital quickly. In short, operate 2-aminoethylaminomethyl triethoxysilane, according to safety and regulations, and do it cautiously, so as to avoid risks and protect themselves and their environment.

Application Area

Today there is a material called 2 - Aminoethylamino Methyl Triethoxysilane. Its application field is quite wide. In the modification of materials, this substance can change the surface properties of materials, such as increasing their hydrophilicity, or changing their surface charge, to suit different purposes. In the preparation of composite materials, it can be used as a coupling agent to strengthen the bonding between different components, so that the performance of composites is better. In the field of biomedicine, with its characteristics, it can assist drug delivery, increase drug targeting, and reduce damage to normal tissues. Or it can be used to prepare special coatings, protect objects, and extend their lifespan. It is useful in many fields such as chemicals, materials, and biomedicine, and is indispensable for scientific research and industrial production.

Research & Development

Since modern times, chemical refinement has resulted in the emergence of new substances. 2 - Aminoethylamino Methyl Triethoxysilane This compound is the object of our dedicated research. Its unique structure and unique properties have great potential in the fields of materials and chemical industry. We carefully observe its synthesis method, optimize the process, and strive for high efficiency and purity. Explore its reaction mechanism, understand the influence of conditions, and hope to achieve a delicate environment. After repeated trials and improvement of the process, the yield gradually increases and the quality is also excellent. At the end of the application, focus on developing. Try on the coating to increase its adhesion; use it for filling to strengthen its performance. Looking at its performance, the results are remarkable. We hope that this compound can add new color to the industry, introduce new ideas, lead development, and make unremitting progress in the path of scientific research to achieve new territory.

Toxicity Research

Jin Yan 2 - The poison of Aminoethylamino Methyl Triethoxysilane is related to everyone's health and cannot be ignored. Examine this thing in detail, study its properties in various media, and observe the change of its sympathies with other things. Take various experimental methods, use white pigs, guinea pigs, etc. as test subjects, and observe their state after ingesting and inhaling this thing. See creepy hair, abnormal behavior, and even signs of organ damage. Simulate the human microenvironment in vitro to observe the effect of this thing on cells. See cell activity gradually weakening, morphological aberration, as if the vitality is gradually losing. Based on various experiments, 2 - Aminoethylamino Methyl Triethoxysilane is toxic and can harm the body of living things. When using this substance in the future, be careful to prevent it from spreading, so as not to cause harm to the world, causing suffering to living beings and damage to health.

Future Prospects

Wuguanfu 2 - Aminoethylamino Methyl Triethoxysilane This substance has unique properties and a wide range of uses. In current research, it has emerged. Although the current research is only the tip of the iceberg, but our generation of scientific researchers, with great ambitions and ambitions, hope to gain in-depth insight into its mysteries in the future. We expect that in the future, this substance will definitely shine in the field of materials science. It may improve the properties of materials to make them more tough and durable; it may be used in chemical production, or it may improve efficiency and reduce energy consumption. And in the field of biomedicine, there may be innovative breakthroughs to help human health. The exploration of the future is long and difficult, but we firmly believe that with unremitting research and fearless exploration, we will be able to uncover more of its miraculous veil, seek well-being for the world, and develop the infinite prospects of this material.

Frequently Asked Questions

2-Aminoethylamino Methyl Triethoxysilane What are the main application fields

2-Aminoethylaminomethyl triethoxysilane has a wide range of uses. In the field of material modification, it is often used as a coupling agent. This agent can build a bridge between inorganic materials and organic materials and enhance the bonding force between the two. For example, in the preparation of composite materials, adding this silane can make the glass fiber and the resin closely connected, improve the mechanical properties of the composite material, and make it more tough and durable.
In the coating industry, it also has important applications. It can improve the adhesion of the coating to the substrate, so that the coating firmly adheres to the surface of the substrate and is not easy to fall off. And it can enhance the water resistance and chemical corrosion resistance of the coating, so that the coating can better resist external erosion, prolong the service life of the coating, and ensure the long-term stability of its appearance and performance.
In terms of fabric finishing, this silane also plays a role. It can give fabrics special properties, such as waterproof, oil-proof and anti-static. The treated fabric, water droplets roll off, oil stains are difficult to adhere, and static electricity generation is reduced, making it more comfortable and convenient to wear.
In the field of electronic packaging materials, 2-aminoethylaminomethyl triethoxy silane can improve the adhesion and sealing properties of materials, ensure the stable operation of electronic components, and protect them from external environmental interference, which has a huge impact on the performance and life of electronic equipment. Overall, this silane is of critical value in many industrial and scientific fields, providing important assistance for material performance optimization and new product development.

What are the physicochemical properties of 2-Aminoethylamino Methyl Triethoxysilane?

2-Aminoethylaminomethyltriethoxysilane, this is a kind of organosilicon compound. Its physical and chemical properties are quite unique, let me tell you in detail.
Looking at its properties, under normal circumstances, it is mostly a colorless to light yellow transparent liquid, just like a clear spring, clear and shiny. Smell it, with a slightly special smell, although not pungent, but unique, leading people to explore its mysteries.
When it comes to solubility, this compound can exhibit good solubility in many organic solvents. For example, common alcohols, ethanol, isopropanol, etc., are like old friends reuniting with each other, can blend with each other, and dissolve each other seamlessly; in ketones, acetone and other solvents, they can also coexist harmoniously and disperse evenly. However, its solubility in water is slightly different. Although it is not completely insoluble, it is only slightly soluble in water. Just like a drop of oil falling into water, although it has a little sense of integration, it is difficult to achieve complete miscibility.
Besides its boiling point, due to the molecular structure and force, the boiling point reaches a specific value, about within a certain range. This property enables it to undergo a phase change under a specific temperature environment, from liquid to gaseous state. As for the melting point, it is also in the corresponding range. When it is cold, it will solidify from liquid to solid, just like water freezes when it is cold, and the shape changes, which contains physical laws.
In terms of chemical properties, 2-aminoethyl aminomethyl triethoxysilane is very active. The amino and ethoxysilane groups contained in its molecules are both active groups. Amino groups are alkaline, just like active factors in the chemical world, and can react with many acidic substances, just like acid and base meet, neutralize and produce new substances. Ethoxysilane groups can be hydrolyzed under certain conditions. After hydrolysis, they can further condensate with other substances to form more complex structures. This property makes it useful in many fields. In the coatings, adhesives, composites, and other industries, it can play a unique role by virtue of its physical and chemical properties, or enhance the bonding force, or improve the material properties. It is like a highly skilled craftsman who carefully crafts various materials, giving them new life and value.

2-Aminoethylamino Methyl Triethoxysilane What are the precautions during use

2-Aminoethylaminomethyl triethoxysilane, when using, there are several ends should be paid attention to.
First, this chemical is reactive and should be used to avoid contact with strong oxidants, strong acids, strong bases and other substances. If such substances are encountered, they may cause severe reactions and cause dangers, such as fire and explosion.
Second, this substance is volatile and should be used in well-ventilated places. If it is in a closed and poorly ventilated place, its volatile gas will accumulate, or risk poisoning. When operating, it is appropriate to wear protective equipment, such as gas masks, protective gloves, goggles, etc., to protect personal safety and prevent skin, respiratory tract, eyes and other parts from being damaged.
Furthermore, it is crucial to precisely control the amount and reaction conditions during use. Factors such as temperature, reaction time, and the proportion of reactants will all affect the reaction process and product quality. If the temperature is too high, the reaction may be out of control; the proportion is improper, or the expected product may be difficult to obtain.
Also, after use, properly dispose of the residue and waste. Do not dump at will, and must be treated harmlessly in accordance with relevant environmental regulations to avoid polluting the environment.
In short, when using 2-aminoethylaminomethyltriethoxysilane, be careful, strictly abide by the operating procedures, and focus on safety and environmental protection, in order to achieve the purpose of experiment or production smoothly.

What are the storage conditions for 2-Aminoethylamino Methyl Triethoxysilane?

2-Aminoethylaminomethyl triethoxysilane is also a chemical substance. Its storage is essential, which is related to the quality and use of this substance, and should not be careless.
This substance should be stored in a cool, dry and well-ventilated place. A cool environment can slow down the rate of chemical change, prevent its activity from changing due to high temperature, or cause unnecessary reactions. Dry strips are crucial, and they are prone to hydrolysis in contact with water. This hydrolysis may cause its structure to change, damage its original chemistry, and eventually lose their use. Therefore, avoiding water and moisture is an important rule for storage.
Furthermore, good ventilation is also the key. If stored in an occluded place, the volatile gas of the substance will gather and not disperse, which may increase the risk of ignition and explosion, and will be harmful to the people around the storage. If the ventilation is good, the volatile gas can be removed to ensure the safety of the environment.
Storage equipment is also exquisite. Corrosion-resistant containers, such as glass or specific plastic materials, should be used. Due to the chemical properties of 2-aminoethyl aminomethyl triethoxysilane, or react with other materials, the device will be etched, causing impurity of the substance, and may cause leakage.
During access and storage, the operator is in front of protective equipment, such as gloves, goggles, etc. If this substance touches the skin or enters the eyes, it can cause injury. Therefore, comprehensive protection can protect the health of the operator. In short, following these storage rules can protect the quality of 2-aminoethylaminomethyl triethoxysilane for later use.

How is 2-Aminoethylamino Methyl Triethoxysilane Compatible with Other Chemicals?

The compatibility of 2-aminoethyl aminomethyl triethoxy silane with other chemical substances is quite important and is related to many practical application scenarios. This silane contains active amino groups and hydrolyzable ethoxy groups, and has unique properties.
When mixed with inorganic substances, its ethoxy group can be hydrolyzed to form silanol, which then condenses with the hydroxyl group on the surface of metal oxides, hydroxides and other inorganic substances, so the compatibility is usually good. For example, in metal anti-corrosion coatings, it can react with metal surfaces to enhance coating adhesion and improve protective performance.
However, when it encounters some strong acidic substances, because its amino group is alkaline, it is easy to neutralize with acid and base, resulting in the destruction of the silane structure, reducing its original efficacy, and poor compatibility. For example, in strong acid electroplating solutions, this silane is difficult to exist stably.
In organic solvents, its compatibility depends on the polarity of the solvent. It has a certain solubility in polar organic solvents such as ethanol and acetone, and can be uniformly dispersed, showing good compatibility; but in non-polar solvents such as n-hexane, the solubility is poor, phase separation is prone to occur, and the compatibility is poor.
When blending with polymers, if the polymer contains groups that can react with amino groups, such as epoxy groups and carboxyl groups, the two will chemically react to enhance compatibility. Like in epoxy-silane composites, the two are tightly combined and the material properties are optimized. However, with polyolefin polymers, the compatibility is weak due to the absence of active reactive groups and only physical action.
Overall, the compatibility of 2-aminoethyl aminomethyl triethoxysilane with different chemical substances varies significantly, and careful consideration is required before use to ensure that it is stable in a specific system and can perform the expected performance.