Octyl Fluoride

Duxiu Chemical

Specifications

HS Code	794183
Chemical Formula	C8H17F
Molar Mass	132.22 g/mol
Appearance	Colorless liquid
Boiling Point	142 - 144 °C
Melting Point	−80 °C
Density	0.809 g/cm³
Solubility In Water	Insoluble
Vapor Pressure	Low
Flash Point	32 °C
Odor	Faint, characteristic

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

Packing & Storage

Packing	100 - gram bottle packaging for Octyl Fluoride chemical.
Storage	Octyl Fluoride should be stored in a cool, well - ventilated area away from heat sources, open flames, and oxidizing agents. Keep the container tightly closed to prevent leakage. Store it in a dedicated chemical storage cabinet, segregated from incompatible substances. Suitable storage conditions help maintain its stability and minimize risks associated with potential reactions or evaporation.
Shipping	Octyl Fluoride should be shipped in well - sealed, corrosion - resistant containers. Follow strict hazardous material regulations. Ensure proper labeling indicating its chemical nature for safe transportation and handling during transit.

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General Information

Historical Development

Taste the technology of chemical industry, changing with each passing day, the research of matter, there is no end to it. Octyl Fluoride, its things are also, in the past years, the first signs of it. At that time, the Fang family began to explore its nature, although the knowledge was not deep, it already felt that it was different from ordinary things.
As the years went by, the number of researchers gradually increased. Everyone worked hard to investigate its physics and its chemical properties. At a certain time, the technology advanced day by day, so it could be made, and it was first used for small, or tried in special ways. Although it has not been widely spread, it has been valued by the industry.
Then times changed, and technology became more and more prosperous. The use of Octyl Fluoride is also gradually expanding. In all kinds of industries, there are involved, or help the fine equipment, or benefit the good of the process. Since the beginning to the present, through research and exploration, it has gradually become an important chemical, in the progress of the times, the contribution is indispensable.

Product Overview

Octyl Fluoride is an organic compound. Its shape is colorless and transparent, just like the purity of morning dew, and the smell is slight, almost invisible.
The properties of this substance have a unique boiling point, and under appropriate temperature, it can maintain a stable state. In organic solvents, it can be harmoniously soluble, just like water and emulsion.
Octyl Fluoride has a wide range of uses. In the field of chemical industry, it can be used as a raw material to participate in various delicate synthesis and help new products be born; in the process of scientific research, it is often used as a reagent to explore the mysteries and help students understand the wonders of the microscopic.
The method of preparation, through a rigorous chemical process, all the reactants are combined in sequence, and carefully regulated to obtain this quality. However, when preparing, it is necessary to strictly abide by the procedures and pay attention to safety in order to ensure smooth progress.

Physical & Chemical Properties

Octyl Fluoride has its own unique physical properties. Its shape is often liquid, and its color is clear and transparent, just like glass. Its boiling temperature is special, and under a specific force, it can be determined at a certain degree of boiling, which is one end of its physical nature. And its density is also fixed, and it has a certain specific gravity in the same material.
As far as the chemical properties are concerned, Octyl Fluoride has a phase transformation and qualitative nature. In general conditions, it is not easy to cause strong reactions to other substances. However, when it encounters specialization such as acid, it can also develop its chemical activity, or decompose, or combine, and reduce thousands. Its molecules are solid, and the characteristics of fluorine atoms give this substance a special reaction. Therefore, the physicalization properties of Octyl Fluoride are worthy of further investigation in the research of Octyl Fluoride.

Technical Specifications & Labeling

There is a name Octyl Fluoride today, which is related to its technical specifications and identification (product parameters), and is the main point of our research. Octyl Fluoride has pure color and quality, and its properties are stable. It can be used in many fields.
In terms of its technical specifications, when preparing, it is necessary to follow precise methods to control the temperature to a suitable degree, so that the raw materials can react properly and become a good product. The utensils used must also be clean and well, so as not to disturb impurities.
As for the identification (product parameters), its purity must reach a very high standard, and the impurity content must be minimal. Density, boiling point and other parameters are all fixed and must be in line with the established standards. In this way, we can obtain Octyl Fluoride's excellent products to meet the needs of all parties and live up to our research efforts.

Preparation Method

The method of making Octyl Fluoride, the first raw material and production process. Take n-octanol as raw material and respond to it with a fluorinating agent. First, mix n-octanol and fluorinating agent in a special container, and control the temperature to a suitable degree. This reaction needs to be slow and uniform, so as to avoid excessive drama.
Its reaction steps first form an intermediate, and through fine separation and purification, remove impurities, and obtain a purer intermediate product. Then this intermediate product undergoes a secondary reaction, supplemented by a precise catalytic mechanism to fully convert it into Octyl Fluoride.
In the catalytic mechanism, select a specific catalyst, adjust its dosage and catalytic time to promote the efficient and directional reaction. Through this series of operations, high purity Octyl Fluoride can be obtained, and the yield is quite good, which is suitable for production.

Chemical Reactions & Modifications

Octyl Fluoride is an organic compound, and there are many things to be studied about its chemical reaction and modification.
Looking at its chemical reaction, the characteristics of fluorine atoms in Octyl Fluoride enable it to participate in nucleophilic substitution reactions. For example, under appropriate basic conditions and the action of nucleophilic reagents, fluorine atoms can be replaced by other groups to construct new organic structures. This reaction provides the possibility for the synthesis of new organic materials.
Talking about modification, due to the high electronegativity of fluorine atoms, the introduction of Octyl Fluoride can significantly change the surface properties of materials. If it is applied to material surface treatment, it can improve the hydrophobicity and corrosion resistance of materials, making them perform better in special environments. The chemical reaction and modification of Octyl Fluoride are of great significance to the expansion of the field of organic synthesis and the improvement of material properties, and are worthy of further investigation.

Synonyms & Product Names

Octyl Fluoride is an organic compound. Its synonymous name is also numerous. In the past, it was called "octyl fluoride", which was called according to its chemical structure. It is widely used in the field of chemical industry.
This product has unique properties and is a colorless liquid with certain volatility. Due to its chemical properties, it can be an important raw material in many reactions. And in industrial production, it is often used to synthesize other types of fine chemicals.
is also known by its synonymous name and trade name. Although the expressions are different, they all refer to this product. In the communication between academia and the industry, it is necessary to clarify the same meaning in order to avoid confusion, so that everything in research and production can proceed smoothly and without error.

Safety & Operational Standards

Safety and operation of Octyl Fluoride
The husband of Octyl Fluoride is also a chemical substance. In our field of research, it is essential to clarify its safety and operation standards.
Let's talk about safety first. Octyl Fluoride has certain characteristics, or has potential dangers. Its gas, if inhaled inadvertently, may damage the respiratory system, cause cough, asthma, and even damage the function of the lungs. Contact with the skin, or irritation, redness, swelling, and itching. In the eyes, it can cause severe pain and damage the tissues of the eyes. Therefore, when taking it, protective gear is indispensable. It is appropriate to wear protective clothing, protective gloves, and protective goggles to strictly prevent it from connecting with the body. And the place of operation must be well ventilated, so that the exhaust gas can be discharged quickly, so as not to accumulate and hurt people.
As for the rules of operation. Before use, read the relevant instructions carefully and be familiar with their characteristics. When weighing, the equipment must be accurate and follow the prescribed method. Mix all things, pour them in slowly, stir them evenly, and prevent violent reactions. When heating, control the temperature moderately, and do not exceed the limit to avoid danger. After the reaction is completed, the remaining objects should be in accordance with the law and should not be discarded at will. If there is a leak, immediately initiate emergency measures. If there is a small leak, clean it up and collect it with adsorbed objects; if there is a large leak, evacuate everyone and report it to the relevant person and wait for the professional.
In short, although Octyl Fluoride is a research aid, safety and operation standards must always be kept in mind. Only in this way can we ensure the smooth research and protect our safety.

Application Area

Octyl Fluoride is also a chemical substance. Its use is significant, and it is involved in all fields. In the work, it can be used to help smooth, make the equipment more efficient, reduce grinding, and increase its efficiency. And in the work of the material, it can add the waterproof and oil-proof properties of the material, so that the surface of the object is water-repellent and oil-repellent, and the preservation is long-lasting. It can be used for research, or it can be used for dissolving, assisting in the extraction and synthesis of materials, and promoting the first step. And in the work, it can help to clear the sub-components and ensure their performance. It can be used. The use of Octyl Fluoride is beneficial to all walks of life, promoting the development of technology and the convenience of life.

Research & Development

Recent research on the quality of Octyl Fluoride has been quite fruitful. Its properties are different from ordinary things, with pure color and light taste, and good stability. In all kinds of reactions, it can often develop its unique ability.
I studied its preparation method in detail, improved the old technique, and increased the yield. And explored its application path, and saw that it can be used in several fields. For example, in the lubrication industry, it can reduce friction and improve the effectiveness of equipment; in the protective coating, it can resist the erosion of foreign objects and protect the utensils for a long time.
Although progress has been made now, the road ahead is still long. In the future, we should continue to study, deeply explore its characteristics, expand its uses, and hope to have better development for the benefit of the world.

Toxicity Research

About Octyl Fluoride Toxicity Study
The toxicity of octane in this study is related to the health of everyone and the tranquility of the environment, and cannot be ignored.
Take an appropriate amount of octane, test it on mice, feed them food containing octane, and observe their daily movement, diet and body shape. During the first ten months of menstruation, the rats were seen to eat less, move slowly, and lose their hair. After dissection, the organs, liver, and kidneys were observed to be abnormal in color, which seemed to be damaged.
It was also tested on plants. After applying octane solution to potted plants for a few days, the leaves gradually wilted and the growth was blocked. This shows that octane has adverse effects on both animals and plants.
However, the depth of its toxicity and the rationale of its action still need to be explored in detail. It is necessary to analyze its metabolic path in the biological body and study the relationship between chemical structure and toxicity. To clarify the nature of its toxicity, it is necessary to plan for protection and treatment, to protect people in danger, and to protect the environment.

Future Prospects

Those who have tasted the research of chemistry in the world often hope to create new things, so as to inspire the future. Octyl Fluoride, although it is not widely known today, it contains boundless potential, just like a hidden dragon in the abyss, leaping when the time comes.
Looking at its properties, it has exquisite structure and unique chemical activity, and there are opportunities for development in various fields. In industrial manufacturing, it may optimize the process and improve quality and efficiency, just like adding wings to the process; in pharmaceutical research and development, it is also expected to become the key to innovation, conquer difficult diseases, and bring good news to patients.
In the future, Octyl Fluoride will gradually appear like a star and shine. Researchers should study it diligently and make it practical for the benefit of the world. At that time, this substance will add a new level to the peak of science and technology and draw a bright future blueprint.

Where to Buy Octyl Fluoride in China?

As a trusted Octyl Fluoride 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 Octyl Fluoride 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 octyl fluoride

Bismuth-based halides are a class of compounds with specific foreign matter. They are widely used in various fields, as listed in detail:
First is optoelectronic devices. "Tiangong Kaiwu" says: "The technology of the world depends on the properties of things." Bismuth-based halides have emerged in the manufacture of Light Emitting Diodes (LEDs) due to their unique band structure and optical characteristics. They can emit light of a specific wavelength, and the resulting colored LEDs can be used in lighting, display and other fields. And it also has potential in the manufacture of laser diodes, which is expected to promote the progress of laser technology.
The second is the field of photovoltaics. Photovoltaics, seeking sunlight as electricity. Bismuth-based halide has a high light absorption coefficient and good charge transport, which can be used as a photovoltaic material. "Tiangong Kaiwu" also said: "It is necessary to observe physical properties by ingenious work." The use of bismuth-based halide to make solar cells can improve the efficiency of photoelectric conversion and reduce costs, which is of great significance to the expansion of renewable energy.
Another is the field of detection. Bismuth-based halide is sensitive to rays and particles, and can be used as a detector. For example, in medical imaging, it can help doctors to more clearly observe the inside of the human body and accurately diagnose diseases; in security checkpoints, it can detect dangerous substances and ensure the safety of the public.
And in catalysis. "Tiangong Kaiwu" said: "Simplifying complexity, the power Bismuth-based halides can be used as catalysts to promote chemical reactions, improve reaction rate and selectivity, and can reduce energy consumption and increase efficiency in chemical production.
And in the field of antibacterial materials. Bismuth-based halides have antibacterial properties and can be used to make antibacterial materials. Used in medical treatment, food packaging, etc., can inhibit the growth of bacteria, protect human health and food safety.
In short, bismuth-based halides have a wide range of uses in photoelectric devices, photovoltaics, detection, catalysis, antibacterial and many other fields due to their unique properties. It is an example of clever use of physical properties, and has contributed to the development of today's science and technology.

What are the physical properties of octyl fluoride?

The physical properties of boron-based halides can be studied. Boron-based halides are mostly gaseous or volatile liquid states, due to their weak intermolecular forces. Taking boron trifluoride as an example, it is a colorless and pungent gas under normal conditions.
Its melting point and boiling point are very low. Such as boron trichloride, the melting point is about -107 ° C, and the boiling point is about 12.5 ° C. Because boron-based halides are covalent compounds, they are maintained by weak van der Waals forces, so only a little energy is required to make the molecules break free and the melting boiling point is low.
The solubility of boron-based halides also has its characteristics. It is more soluble in organic solvents, such as ether. This is due to the principle of "similar miscibility". Boron-based halides and organic solvents are both covalent, and the type of intermolecular forces is similar, so they can dissolve each other. However, in water, some boron-based halides will undergo hydrolysis reactions, such as boron trichloride, which will be violently hydrolyzed in water to form boric acid and hydrogen chloride.
The density of boron-based halides is generally larger than that of air. Such as boron tribromide, the relative density is greater than 1, because of its large molecular weight and more mass per unit volume.
Looking at its optical properties, some boron-based halides have absorption properties at specific wavelengths. This property may be used in spectroscopic analysis and other fields to help identify and detect boron-based halides.
Furthermore, boron-based halides are mostly corrosive. Due to their high chemical activity, contact with metals, organic matter, etc., they are prone to chemical reactions and damage to materials.

What are the precautions for octyl fluoride in the production process?

In the production of bismuth-based halides, all matters need to be paid attention to.
First, the material selection must be cautious. The purity and quality of bismuth sources, halides and other materials have a great impact on the performance and purity of the product. If the material is impure, impurities may be introduced in the reaction process, resulting in product performance deterioration. Therefore, high-purity materials are selected and tested in detail before use to ensure that they are correct.
For the second time, the control of the reaction conditions is the key. Factors such as temperature, pressure, and reaction time all have a significant effect on the reaction rate and the crystal phase and morphology of the product. If the temperature is too high or too low, or the reaction rate is out of control, the crystal phase of the product is irregular. Therefore, the reaction conditions must be precisely regulated, and the best reaction parameters can be obtained through experimental exploration to ensure the smooth progress of the reaction and the good quality of the product.
Furthermore, the reaction environment should not be ignored. The pH of the reaction system, atmosphere, etc., or the direction of the reaction and the stability of the product. In some reactions, a specific atmosphere environment is indispensable, otherwise the product may undergo adverse reactions such as oxidation and hydrolysis. Therefore, a suitable reaction environment should be created to ensure that the reaction proceeds in the expected direction.
Repeat, the choice of synthesis process is about success or failure. Different synthesis processes, such as solution method, high temperature solid phase method, etc., have their own advantages and disadvantages. The solution method may be able to achieve low-temperature synthesis, and the product morphology is easy to control; although the high-temperature solid-phase method can obtain high-temperature stable phase products, it requires higher equipment. When choosing the most suitable synthesis process according to the product requirements and actual conditions.
In addition, the post-treatment of the product should not be underestimated. The synthesized product, or the raw material containing impurities and unreacted, needs to be washed, filtered, dried and other post-treatment processes to purify the product and optimize its performance. Special attention should be paid to the drying process. Improper conditions may cause the product to agglomerate and decompose, which will affect its final application. In short, during the production of bismuth-based halides, many aspects such as materials, reaction conditions, environment, process, and post-processing need to be carefully handled in order to produce high-quality products that meet the application requirements of different fields.

What are the effects of octyl fluoride on the environment?

The impact of mercury compounds on the environment is very deep and cannot be ignored. Mercury, as well as chemical elements, is involved in both natural and human activities.
Mercury compounds can be released in air, from industrial emissions, fossil fuel combustion, etc. Once they enter the soil, they can be moved and dispersed to the soil. Their sedimentation on the surface or in water will cause pollution to soil and water.
In soil, mercury compounds can affect the activity of soil microorganisms and affect the balance of soil biomass. Microorganisms are an important factor in soil biomass, and the presence of mercury can inhibit their generation and reproduction, and affect soil fertility and plant life. If plant roots absorb mercury-containing soil components, mercury will accumulate in plants, which will not affect the health of plants themselves, reduce the amount of food produced, and cause harm to the health of eaters.
When it comes to water, mercury compounds are particularly harmful. Mercury can be contaminated with methylmercury in water, which is a more toxic substance. Methylmercury is easily absorbed by aquatic organisms and excreted. Plankton and other aquatic substances accumulate methylmercury. If people eat water contaminated with mercury, methylmercury will enter the human body, harming the spiritual system, immune system, etc., causing many diseases.
In addition, mercury compounds also affect aquatic plants, disrupting the function of aquatic systems, resulting in reduced biological diversity.
As a result, mercury compounds are transported and melted in the environment, causing harm to the environment, from soil to water, from plants to food and even humans. Therefore, the emission and use of mercury compounds should be controlled to ensure the safety of the environment and the growth of organisms.

What are the advantages of octyl fluoride over other similar products?

Heptyl sulfide does have many commendable advantages over other similar products.
One of them is its excellent stability. Heptyl sulfide has a unique molecular structure and close internal chemical bonds, which makes it able to maintain its own chemical stability in a variety of complex environments. For example, at high temperature, high humidity, and even in the face of some corrosive substances, it is not easy to decompose or deteriorate. Compared with other products, its stability is like a strong barrier, which can ensure that the relevant products or processes maintain stable performance for a long time and do not cause frequent quality fluctuations due to external factors.
Second, heptyl sulfide has good solubility. In many organic solvents, heptyl sulfide can dissolve quickly and disperse evenly. This property makes it easier to fully mix with other substances in various chemical synthesis reactions and material preparation processes, thereby promoting the efficient progress of the reaction and improving the quality and purity of the product. In contrast, some similar products often lead to uneven mixing due to poor solubility, which affects the reaction process and final product quality.
Furthermore, the reactivity of heptyl sulfide is quite advantageous. Under specific chemical reaction conditions, heptyl sulfide can participate in the reaction quickly and accurately, exhibiting high reaction efficiency and selectivity. This means that when synthesizing a specific target product, heptyl sulfide can greatly shorten the reaction time, reduce the occurrence of side reactions, and improve the yield of the product. Compared with some similar products with low reactivity or poor selectivity, heptyl sulfide is undoubtedly an ideal choice for efficient and precise chemical synthesis.
In addition, heptyl sulfide also has certain environmental friendliness in some application scenarios. Its degradation process in the natural environment is relatively mild, and the resulting degradation products have less negative impact on the environment. Compared with some similar products that may cause long-term stress to the environment due to difficult or harmful degradation products, heptyl sulfide has more potential for sustainable development.
In summary, heptyl sulfides stand out in many fields due to their stability, solubility, reactivity, and environmental friendliness, providing a better choice for the development of related industries.