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Fluorinated Octyl Sulfonic Acid Tetraethyl Amine

Specifications

HS Code	164305
Chemical Formula	C16H36F8NO3S
Molecular Weight	491.52 g/mol
Appearance	Typically a colorless to pale - yellow liquid
Solubility In Water	Moderate solubility, due to the polar sulfonic acid group and the relatively long fluorinated chain
Boiling Point	Higher than many common organic solvents, around [specific value if available] °C
Melting Point	[Value if available] °C
Density	[Value if available] g/cm³
Vapor Pressure	Low vapor pressure at normal conditions
Ph In Aqueous Solution	Acidic due to the sulfonic acid functionality
Surface Activity	Good surface - active properties, can reduce surface tension of liquids

As an accredited Fluorinated Octyl Sulfonic Acid Tetraethyl Amine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100 - gram bottle of Fluorinated Octyl Sulfonic Acid Tetraethyl Amine, well - sealed.
Storage	Fluorinated Octyl Sulfonic Acid Tetraethyl Amine should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition points. It should be kept in tightly - sealed containers to prevent exposure to moisture and air, which could potentially react with the chemical. Store it separately from incompatible substances like oxidizing agents and bases to ensure safety.
Shipping	"Fluorinated Octyl Sulfonic Acid Tetraethyl Amine" must be shipped following strict hazardous chemical regulations. Use appropriate containers, label properly, and ensure transportation by carriers certified to handle such substances safely.

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Fluorinated Octyl Sulfonic Acid Tetraethyl Amine

General Information

Historical Development

The origin of Fluorinated Octyl Sulfonic Acid Tetraethyl Amine first appeared in the garden of scientific research. At that time, various sages studied new qualities, hoping to obtain strange properties and excellent performance.
At the beginning, the exploration was difficult, and everyone was committed to analyzing its structure and exploring its characteristics. Although it has gone through a difficult journey, it is unswerving. As the years go by, the research becomes more and more profound. Scholars have gained insight into its chemical properties and understand the ways it can be used in various fields.
Since then, it has gradually emerged in the fields of industry and scientific research, and is used more and more widely. Since its birth, researchers have worked tirelessly to make its characteristics more and more prominent, and its applications have been continuously expanded, thus becoming today's grand view. In the process of science, it has left a clear trace, and its development path is like a shining star, shining in the academic firmament.

Product Overview

The modern compound is called Fluorinated Octyl Sulfonic Acid Tetraethyl Amine. Its properties are different, and it is composed of fluorine, carbon, hydrogen, nitrogen, oxygen, sulfur and other elements.
What is the state of this substance? The color is pure and the state is stable, or it is liquid or crystal, depending on the situation of preparation. It has a wide range of uses in various fields of chemistry. In industrial manufacturing, it can help the material to moisten and disperse, so that the quality of the product is better; in scientific research experiments, it is a commonly used reagent to assist researchers in exploring the secrets of chemistry.
However, it is difficult to make it, and it is necessary to strictly control the temperature, pressure, and amount of agents. And the nature of this thing also needs to be studied in detail, so as to avoid improper use, causing harm to the environment and the body. Therefore, those who study this thing must be careful and careful, scrutinizing its nature and use, in order to do their best to avoid its disadvantages.

Physical & Chemical Properties

Today there is a thing called Fluorinated Octyl Sulfonic Acid Tetraethyl Amine. Its physical and chemical properties are quite specific. Looking at its quality, its shape or shape, color or state, this is related to its physical characteristics. As for chemical properties, when encountering a certain agent or changing a certain state, it should follow the rules of chemistry. Its molecular structure, atomic phase title, and chemical bond connection determine its characteristics. In different environments, temperature and pressure vary, and its properties are also different. Whether stable or variable, it depends on its internal quality and external environment. The nature of this thing is related to many things, and it needs to be studied in detail to understand its rationale and use it for good.

Technical Specifications & Labeling

Tetraethylamine fluorooctane sulfonate is a chemical that we have dedicated ourselves to studying. Its process specifications and identification (product parameters) are crucial. Looking at this product, its synthesis requires a precise process, each step is rigorous and orderly, and the material ratio is carefully weighed. From the selection of starting materials to the control of reaction conditions, there are regulations. Temperature, duration, pressure and other parameters are the key to affecting the quality of the product.
On the label, the chemical properties and hazard warnings of this product should be detailed. Information such as corrosiveness and toxicity must be clearly displayed on the packaging. Product parameters, more accurate, purity, impurity content and other data are the standard measure of its quality. Therefore, it is necessary to ensure that the chemical is safe and effective when used.

Preparation Method

The method of making Fluorinated Octyl Sulfonic Acid Tetraethyl Amine is related to the raw materials and production process, reaction steps and catalytic mechanism. The raw materials need to be selected with high purity to ensure the quality of the product. In the production process, specific fluorinated compounds and sulfonic acid raw materials should be mixed in precise proportions in a special container, and the temperature should be controlled in a suitable range. This is a key step.
The reaction steps are rigorous. First, the raw materials are initially fused by mild heating, and then gradually heated to the active state. During this period, the reaction process needs to be closely monitored, and the temperature and pressure should be fine-tuned according to the situation. In the catalytic mechanism, a high-efficiency catalyst is selected to accelerate the reaction rate, and the amount of catalyst is precisely controlled. Most of the products are impure, and at least the reaction is slow. In this way, high-quality Fluorinated Octyl Sulfonic Acid Tetraethyl Amine can be prepared.

Chemical Reactions & Modifications

Fluorinated Octyl Sulfonic Acid Tetraethyl Amine, in the field of chemistry, its reaction and modification are of great importance. To observe its reaction, or to combine with other substances, to form new substances. The change of its chemical bonds and the combination of atoms are all the delicacies of chemistry.
As for modification, it aims to change its properties and increase its utility. Or make it more stable, or make its activity variable to meet various needs. To achieve this purpose, it is necessary to study the mechanism of the reaction in detail and understand the influence of conditions. Temperature, pressure, catalyst, etc., all affect the key to its reaction and modification. After careful study and optimization, this material has been able to play a greater role in industry, scientific research, and many other aspects, making extraordinary contributions.

Synonyms & Product Names

Tetraethylamine fluorooctane sulfonate is very important in the chemical industry. The name of this thing is also called by him. "Tetraethylamine fluorooctane sulfonate", this is the correct name, but it is also often used as another name in the world.
The name of the ancient Fangjia, in the name of the thing, often changes with time and place. Tetraethylamine fluorooctane sulfonate, or has a different name because of its characteristics and production method. Although the names are different, they all refer to the same thing.
In the field of chemical industry, it is widely used, or it is a catalytic agent, or it is very useful in synthesis. Knowing its various aliases and correct names, those who study and use this thing are all top priorities, which can avoid many confusions and make everything go smoothly.

Safety & Operational Standards

"Code of Safety and Operation of Tetraethylamine Fluorinated Octyl Sulfonic Acid"
Fluorinated Octyl Sulfonic Acid Tetraethyl Amine, an important item in chemical research. To clarify its safety and operation standards, you should not be careless.
Its material is unique, and its instructions should be carefully reviewed before use. When stored, it should be placed in a cool, dry and well-ventilated place, protected from direct sunlight to prevent deterioration.
When handling, it is necessary to wear suitable protective equipment, such as gloves, goggles, etc., to prevent its damage to the body and eyes. And the operation should be carried out in the fume hood to prevent its gas from dispersing in the room and harming the person.
If you accidentally touch it, rinse it with plenty of water as soon as possible, and seek medical attention immediately. If you inhale its air by mistake, move it to a fresh place. If you feel unwell, seek medical attention as soon as possible.
In addition to the experiment, the waste disposal must also be carried out in accordance with regulations, and it should not be discarded at will, which may pollute the environment.
In short, the safety and operation of the Fluorinated Octyl Sulfonic Acid Tetraethyl Amine must be strictly observed to ensure the smooth experiment and protect the safety of people and the environment.

Application Area

Tetraethylamine fluorooctane sulfonate is widely used. In the field of medicine, it can help the skin of the drug and make the effect of the drug reach the sick place quickly. In the dyeing and weaving industry, it can increase the water and oil repellency of the fabric, making it durable. And in the work of surface coating, it can reduce the surface tension of the material, making it slippery and anti-fouling. And in the world of electronics, it is conducive to the cleaning and protection of electronic components, and its performance is stable. This is what tetraethylamine fluorooctane sulfonate is made of. It has its effect in all situations and is important for the industry. With its changeable properties, it can meet all needs and become a good product with a wide range of uses.

Research & Development

In modern times, chemistry has advanced, and there is a thing called Fluorinated Octyl Sulfonic Acid Tetraethyl Amine. Our generation devoted themselves to studying it, and its characteristics are specific and have a wide range of uses.
Begin to explore its structure, observe the group of its molecules, analyze the connection of chemical bonds, and explain why it is. Then test its physicochemical properties, measure its melting point and boiling point, observe its solubility in various solvents, and explore its relationship with other substances to obtain precious numbers.
In industry, it can be used as an efficient agent to help smooth the reaction and improve the purity of the product. In scientific research, it is a powerful tool to explore new paths. However, it also considers its shadow on the ring, the method of research and control, and seeks continuous progress.
We are determined to make unremitting efforts to promote the prosperity of science and technology with this product, and to contribute to the world's development and exhibition.

Toxicity Research

Fluorinated Octyl Sulfonic Acid Tetraethyl Amine The study of its toxicity is of great importance. This is a detailed study to clarify its properties.
Looking at its preparation, the materials used may contain hidden concerns. Its formation is also scattered in the environment, and organisms encounter or suffer from it. Taste it with insects, plants and trees, and see that its growth and reproduction have changes.
And this substance circulates between water and soil, and is not easy to dissolve. It accumulates for a long time, or enters the food chain, accumulates layer by layer, endangering all living beings. If humans and animals eat it, they may suffer from disease, damage to their viscera, and their health is worrying. Therefore, the research on the toxicity of Fluorinated Octyl Sulfonic Acid Tetraethyl Amine should not be ignored, but must be deeply investigated in order to find a response and ensure the safety of all things in the world.

Future Prospects

Nowadays, Fluorinated Octyl Sulfonic Acid Tetraethyl Amine is a chemical with unique properties and a wide range of uses. Although it has some recognition and application at present, there are still many promising aspects for future development.
In the field of scientific research, it is expected to deeply explore its microstructure and reaction mechanism in order to uncover more hidden characteristics and pave the way for the development of new materials. In industrial production, it may be possible to optimize the process, increase output, reduce energy consumption, and make manufacturing more efficient and economical. And in terms of environmental protection, it is necessary to study its environmental impact and degradation methods to ensure sustainable development.
We hope that with technological progress and unremitting research, Fluorinated Octyl Sulfonic Acid Tetraethyl Amine will be able to bloom in the future, demonstrate extraordinary capabilities in various fields, and contribute to human well-being.

Where to Buy Fluorinated Octyl Sulfonic Acid Tetraethyl Amine in China?

As a trusted Fluorinated Octyl Sulfonic Acid Tetraethyl Amine manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Fluorinated Octyl Sulfonic Acid Tetraethyl Amine 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 uses of Fluorinated Octyl Sulfonic Acid Tetraethyl Amine?

Tetraethylamine fluorooctyl sulfonate, this substance is widely used. In the industrial field, it is often used as a surfactant. Due to its unique chemical structure, it can significantly reduce the surface tension of liquids, making liquids easier to spread and wet. In the production of coatings and inks, it can make the product evenly cover the surface of the substrate, improve the coating effect, and avoid undesirable phenomena such as flow marks and orange peel.
In the field of materials science, it plays a key role in the preparation of special functional materials. For example, in the process of preparing waterproof and oil-proof materials, adding this substance can give the material excellent hydrophobic and oleophobic properties. With its fluorinated group characteristics, the surface energy of the material is greatly reduced, making it difficult for water and oil to adhere, and will be used in the preparation of materials such as waterproof clothing and self-cleaning glass.
In some chemical reactions, tetraethylamine fluorooctane sulfonate can act as a catalyst or reaction aid. Due to its special electronic effect and steric resistance, it can change the reaction rate and selectivity, help the reaction to proceed more efficiently in the desired direction, and improve the yield and purity of the target product, which is of great significance to the development of organic synthesis chemistry.
Furthermore, in the electronics industry, it also has applications. In the process of electronic component manufacturing, lithography, etc., it can be used to improve material interface properties, ensure good stability and reliability of electronic components, and contribute to the improvement of electronic product quality. In short, tetraethylamine fluorooctane sulfonate plays an indispensable role in many fields due to its diverse characteristics.

Fluorinated Octyl Sulfonic Acid Tetraethyl Amine

Fluorinated Octyl Sulfonic Acid Tetraethyl Amine (tetraethylamine fluorooctane sulfonate) is an organic compound with complex effects in the environment.
This compound contains fluorine elements, and fluorine atoms have high electronegativity, resulting in its unique chemical properties. The fluorooctane sulfonic acid part may have specific hydrophobicity and surface activity due to its long-chain alkyl groups and sulfonic acid groups. Hydrophobicity or cause it to be insoluble in environmental water, easily adsorbed on particulate matter or biological surfaces.
and because of its surface activity, or interfere with the normal function of biofilms. Biofilms are essential to cells and have functions such as material transportation and signal transmission. The compound may change the fluidity and permeability of the membrane, making the biofilm unable to function normally, affecting cellular physiological processes, and endangering the health of organisms.
In terms of environmental migration and transformation, tetraethylamine fluorooctane sulfonate is stable in structure or difficult to be degraded by microorganisms. It may persist in the environment for a long time, and accumulate in high trophic organisms through food chain bioenrichment and biomagnification, posing a potential threat to ecosystem structure and function.
In the soil environment, it may adsorb on soil particles, affect soil physicochemical properties and microbial community structure, and change nutrient cycling and material transformation processes in the soil. And it enters groundwater through leaching, pollutes groundwater resources, and endangers drinking water safety.
In aquatic ecosystems, it may cause acute and chronic toxicity to aquatic organisms. Acute toxicity or cause aquatic organisms to die in a short period of time, while chronic toxicity affects life processes such as growth, development, and reproduction. In the long run, it may change the population structure and community composition of aquatic organisms and destroy the balance of aquatic ecosystems.

What are the Physical and Chemical Properties of Fluorinated Octyl Sulfonic Acid Tetraethyl Amine

Tetraethylamine fluorooctyl sulfonate is one of the organic compounds. Its physical and chemical properties are worth exploring.
Looking at its physical properties, under normal conditions, it is either a solid state or a liquid state, depending on its specific structure and external conditions. If it is a solid state, its crystal structure has its own characteristics and the crystal lattice is arranged in an orderly manner, which is related to its many physical manifestations. Its melting point and boiling point are also important physical parameters. The melting point reflects the strength of the intermolecular force. If the intermolecular force is strong, a higher temperature is required to break the lattice binding, and the melting point is high. The same is true for the boiling point, which characterizes the energy required to convert from liquid to gas.
In terms of solubility, in organic solvents, according to the principle of similar solubility, the fluoroalkyl group is hydrophobic, while the sulfonic acid group and the tetraethylamine part may have a certain hydrophilicity, which causes it to have specific solubility in some organic solvents. For example, in polar organic solvents, or due to the formation of hydrogen bonds between the sulfonic acid group and the tetraethylamine part and the solvent molecule, electrostatic interaction, etc., it shows good solubility; in non-polar organic solvents, fluoroalkyl groups may have good compatibility with them, and may also have certain solubility.
In terms of its chemical properties, the sulfonic acid group is acidic, and can react with acid-base substances under appropriate conditions to form corresponding salts. As an organic amine, the tetraethylamine part has a certain alkalinity and can participate in many reactions involving nucleophilic substitution. The fluoroalkyl group endows it with unique chemical stability. Due to its high carbon-fluorine bond energy, the compound has certain resistance to many chemical reagents and is not easy to be oxidized or hydrolyzed. However, under specific strong conditions, such as high temperature and strong oxidants, the carbon-fluorine bond may also break, triggering a series of chemical reactions. This compound may have extraordinary application prospects in the fields of organic synthesis and materials science due to its unique physical and chemical properties.

Fluorinated Octyl Sulfonic Acid Tetraethyl Amine

The production process of tetraethylamine fluorooctane sulfonate is a complex and delicate process. First and foremost, the selection and pretreatment of raw materials are crucial. The preparation of fluorooctane sulfonate needs to start with a specific fluorine-containing compound, and its molecular structure is precisely constructed through fine chemical reactions such as nucleophilic substitution and oxidation. In this process, the control of reaction conditions, temperature, pressure, reaction time, etc. must be carefully investigated to obtain pure and compliant fluorooctane sulfonate.
As for tetraethylamine, it also needs to be strictly purified to remove impurities to maintain its chemical activity and purity. Both are prepared, and it is in the reaction stage. Usually, fluorooctane sulfonic acid and tetraethylamine are placed in a suitable reaction vessel in a precise ratio. The reaction is mostly carried out in an organic solvent environment. The choice of this organic solvent depends on the reaction rate and the purity of the product, and needs to be carefully determined according to the solubility and chemical properties of the two.
When reacting, the stirring rate should not be underestimated, which can promote the full contact of the reactants and accelerate the reaction process. At the same time, the regulation of temperature is like the reins of the horse, which is very important. Either slow heating or constant temperature maintenance is required, depending on the reaction mechanism and kinetic characteristics. After the reaction is completed, the product is often mixed with impurities such as unreacted raw materials and by-products. Therefore, the technique of separation and purification is indispensable. The commonly used methods include distillation, extraction, recrystallization, etc. Distillation can separate the target product according to the boiling point of each component; extraction can achieve separation by the solubility of the solute in different solvents; recrystallization can further purify the product, remove trace impurities, and finally obtain high-purity tetraethylamine fluorooctane sulfonate. The entire production process is interlinked, and any negligence in any link may affect the quality and yield of the product. In fact, every kind of caution is required to strive for excellence.

Fluorinated Octyl Sulfonic Acid Tetraethyl Amine

In the case of tetraethylamine fluorooctane sulfonate, when using it, there are various things to pay attention to and need to be treated with caution.
First, it is related to the characteristics of this substance. This substance has specific chemical properties, and its fluorine structure makes the chemical activity different from that of normal substances. Users must know its reaction characteristics in detail, and understand the reaction under different conditions to prevent accidents. In case of certain chemical reagents, or violent reactions may occur, resulting in safety risks. Therefore, when using it, it is necessary to know its physical and chemical properties in advance, and to understand its relationship with surrounding substances.
Second, safety protection is essential. Because of its chemical properties, or potential harm to the human body. Users need to be equipped with complete protective gear, such as suitable protective clothing, gloves, goggles, etc. It should be operated in a well-ventilated place to prevent the accumulation of harmful gases and endanger the human body. If it is accidentally touched, it should be dealt with quickly according to the emergency rescue method, such as rinsing with a large amount of water.
Third, proper storage should not be ignored. It needs to be placed in a suitable environment to avoid heat, moisture and light, and choose a suitable container according to its characteristics. Improper storage, or cause it to deteriorate, affect the use, or cause safety accidents.
Fourth, the operation specification is the most serious. Users should operate according to the established procedures and do not change the steps without authorization. Steps such as weighing and mixing should be accurate. Each step is related to the success or failure and safety of experiments or production. In short, when using tetraethylamine fluorooctane sulfonate, attention should be paid to the characteristics, safety, storage, and operation to ensure its safety and effectiveness.