Perchloryl Fluoride ((Clo3)F)

Duxiu Chemical

Specifications

HS Code	461393
Chemical Formula	(ClO3)F
Molar Mass	102.45 g/mol
Appearance	Colorless gas
Odor	Pungent odor
Density	4.54 g/L (gas, at STP)
Boiling Point	-46.8 °C
Melting Point	-147.8 °C
Solubility In Water	Reacts with water
Oxidizing Ability	Powerful oxidizing agent
Hazard	Highly toxic and reactive

As an accredited Perchloryl Fluoride ((Clo3)F) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Perchloryl Fluoride (ClO₃F) in a 5 - liter cylinder for secure packaging.
Storage	Perchloryl fluoride ((ClO₃)F) should be stored in a cool, well - ventilated area away from heat sources and ignition sources. It must be in a tightly - sealed container made of materials compatible with the chemical, such as steel cylinders. Keep it separate from reactive substances like combustibles, reducing agents, and bases to prevent dangerous reactions.
Shipping	Perchloryl fluoride (ClO₃F) is a hazardous chemical. Shipping requires compliance with strict regulations. It must be in proper containers, labeled clearly, and transported by carriers trained in handling such dangerous substances.

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General Information

Historical Development

Perchloryl Fluoride (ClO
) F) is also a chemical substance. Its initial discovery originated from the research of various sages. In the past, various chemists worked hard in the laboratory to explore the mysteries of matter. After countless experiments, this compound was obtained.
Its properties are unique, and its initial understanding was still shallow. With the passage of time, researchers have unremitting research, and their understanding of its structure and properties has deepened. It shows different activities in chemical reactions, adding many new phenomena to the field of chemistry.
Since the present world, Perchloryl Fluoride has gradually developed its skills in industry, scientific research and other aspects. However, its development is not smooth sailing. Researchers often encounter problems, but they make unremitting breakthroughs with perseverance. The historical evolution of this material is like a brilliant pearl in the long river of chemical exploration, reflecting the brave pursuit of the unknown by human beings.

Product Overview

Fluorine perchlorate ($ (ClO_3) F $) is also a chemical substance. It is active and highly oxidizing. Looking at its shape, under room temperature and pressure, it is a colorless gas, and it smells irritating.
The preparation of this substance often requires delicate methods. With a specific reaction, control its conditions, and make the elements polymerize to obtain this fluorine perchlorate. It is used in the fields of chemical industry and scientific research.
However, it also poses risks, strong oxidation, or the danger of explosion. Therefore, when preparing, storing and using, strict regulations should be followed to prevent accidents. Scientists must be cautious when using it, check its nature, and investigate its use, in the hope that it can contribute to the progress of chemistry and improve the advantages and eliminate the disadvantages.

Physical & Chemical Properties

Perchloryl Fluoride (Clo
In terms of chemical properties, Clo < f > F has strong oxidizing properties and can easily cause violent reactions when exposed to flammable substances, just like pouring oil on a fire. Under specific conditions, it can react chemically with many compounds and exhibit lively chemical activity. Due to its unique physical and chemical properties, it has applications in both industrial and scientific research fields. However, due to its strong oxidizing properties and potential danger, it must be used with caution to prevent unexpected changes.

Technical Specifications & Labeling

There is a product today, named Perchloryl Fluoride, with the formula Clo
F. In terms of process specifications and identification (product parameters), it is essential to observe.
Its process specifications, the preparation method, from the selection of raw materials to the reaction conditions, should be specified. Temperature control geometry, pressure, and all details are related to quality. And the preparation process, when in accordance with safety regulations, should not cause hidden dangers.
As for the identification (product parameters), its chemical and physical properties must be marked. The point of melting, the geometry of density, and the presence or absence of toxicity are all important items. Make it clear to the user, so that it can be used without worry. In this way, it is possible to achieve accuracy in the process specifications and identification (product parameters) of this object, so as to meet all requirements.

Preparation Method

The method of making fluorine perchlorate ($ClO_3F $) is related to the raw materials and production process, reaction steps and catalytic mechanism. The raw materials often take specific compounds containing chlorine and fluorine, and are carefully proportioned.
At the beginning of the production process, the raw materials are placed in special containers and controlled to precise temperature and pressure. First, the raw materials interact and a preliminary reaction occurs. This is the key starting step.
In the reaction step, each link is advanced in sequence, or heated or cooled, and the reaction process is strictly controlled to prevent impurities from growing. After each step of the reaction, fine separation and purification must be carried out to maintain the purity of the product.
The catalytic mechanism is also heavy, and the choice of suitable catalysts can promote the reaction speed and reduce energy consumption. In the reaction system, the catalyst cleverly changes the chemical reaction path, making the reaction easier to occur. After various operations, high-purity fluorine perchlorate ($ClO_3F $) products can be obtained.

Chemical Reactions & Modifications

I have studied the chemistry of Perchloryl Fluoride (ClO
ClO < F). This compound, its reaction and modification, are very interesting.
ClO < F has unique properties. Its reaction is also often different from other substances. Under specific conditions, it can interact with various substances to produce novel products.
Looking at its modification, chemists are exhausted. Hope to change its properties to suit all kinds of needs. Or adjust its stability, or change its reactivity.
The experiments of the past, despite all the difficulties, chemists are determined. Looking forward to the future, we can deeply understand the secret of ClO-F reaction and modification, so that it can be used in various fields of industry and scientific research, and benefit the world.

Synonyms & Product Names

Perchloryl Fluoride (ClO-F) is also a chemical substance. Although its name is unique, the words synonymous with the name of the commodity can also be investigated.
This substance has unique properties and often appears in a different state in various chemical reactions. Its synonymous names may vary depending on the course of research and regions. As for the name of the commodity, it also depends on the use and market needs.
In the laboratory, those who study this substance often use precise methods to measure its properties and investigate its changes. Its synonymous name facilitates academic communication, so that people from all sides can understand what it refers to. The name of the commodity makes it easy for buyers and sellers to recognize the product when it is in the circulation of commerce.
Fluorine perchlorate, in the field of chemistry, uses different names to demonstrate its value at both the scientific research and practical ends, and is valued by the academic community and the industry.

Safety & Operational Standards

Fluorine perchlorate ($ClO_3F $) Product safety and operation specifications
Fluorine perchlorate ($ClO_3F $) is also a special product of chemistry. Its activity is related to safety and operation standards, and cannot be ignored.
#1. Safety
1. ** Toxicity prevention **: This substance is toxic and harmful to health when it enters the body. It can be dangerous either through breathing or through skin penetration. Therefore, in the operation room, a well-ventilated device must be set up to exhaust turbid air and keep the air fresh. The operator must also wear protective equipment, such as gas masks, gloves and protective clothing, to prevent its harm.
2. ** Reaction risk **: Fluorine perchlorate is easily reacted violently when heated or mixed with other substances, and even explodes. Therefore, it must be stored away from high temperature, fire sources and strong oxidizing agents. Place it in a cool, dry and well ventilated place to prevent accidents.
#2. Operating specifications
1. ** Method of access **: When taking fluorine perchlorate, the operator should be cautious. Use a precise device to measure, according to the needs of the experiment or production, no more or no less. And the operation should be slow to avoid its splashing. If it is accidentally splashed on the skin or clothing, rinse it with plenty of water quickly, and seek medical treatment if necessary.
2. ** Reaction operation **: When used in the reaction system, the reaction mechanism and conditions must be explained in advance. Control temperature and pressure, and abide by the rules of the reaction. During the reaction, closely monitor its changes. If there is any abnormality, take countermeasures quickly to ensure the stability of the process.
3. ** Waste treatment **: After experiments or production, fluorine perchlorate waste should not be discarded at will. Dispose of it in a proper way in accordance with environmental protection regulations. Or chemical neutralization, or professional recycling, to avoid the risk of polluting the environment.
In short, in the use of fluorine perchlorate, safety is the first priority, and the operation is in accordance with regulations. In this way, it can avoid disasters and make the best use for the benefit of chemical research and production.

Application Area

"On the application field of fluorine perchlorate ($ClO_3F $) "
Taste the way of chemistry, it is wonderful, and the research of new things is related to people's livelihood. Today, fluorine perchlorate ($ClO_3F $) is unique and widely used.
In the industrial field, fluorine perchlorate can be used as a strong oxidant to help many chemical reactions proceed efficiently. Because of its strong oxidation, it can promote the smooth occurrence of some difficult reactions, improve production efficiency, and add to the process of chemical synthesis.
In the field of scientific research and exploration, fluorine perchlorate is also an important reagent. Scientists use its characteristics to explore the structure and reaction mechanism of substances, open up a new frontier of chemical understanding, and light up the light for scientific progress.
Furthermore, in the field of materials science, fluorine perchlorate may participate in the preparation of special materials, endowing materials with unique properties and meeting the needs of special materials in different fields. All of this shows that fluorine perchlorate has extraordinary potential in many application fields, and is an indispensable part of chemical research and practice.

Research & Development

In modern times, chemistry has advanced, and there is a name Perchloryl Fluoride, that is, Clo
F. Our generation has been dedicated to studying this substance for a long time.
At the beginning, we observed its physical properties and found that it is a colorless gas with strong oxidizing properties and active properties. Explore the method of its preparation. After various attempts, we can make the high-valent oxide of chlorine interact with fluoride in a specific reaction, and finally obtain this substance.
Looking at its application, it has emerged in many fields. In aerospace propellants, because of its strong oxidizing properties, it can help fuel burn efficiently and provide strong power. In material synthesis, it can participate in special reactions to prepare novel materials.
However, the way of research is also difficult. It is highly oxidizing and requires extreme caution in storage and transportation. We study day and night to explore safe methods to promote its development.
With time and mature technology, Perchloryl Fluoride will surely be used by the world, benefiting all people, and adding brilliance to scientific research and industry.

Toxicity Research

In the chemical industry, there is a name Perchloryl Fluoride, that is, Clo
F. The toxicity study of this substance is crucial.
Today's detailed examination shows that Clo < F has strong oxidizing properties and contains toxic substances. If it escapes in the air, people will feel airway discomfort at first, followed by cough and chest tightness. If it is left on its side for a long time, the viscera are damaged, especially the lungs, which can cause lung diseases.
The reason for its toxicity lies in its active molecular structure. After entering the body, it reacts with various biomolecules, disrupting the metabolism of cells and damaging the structure of cells. Therefore, the study of its toxicity is to prevent its harm and ensure people's well-being. In the place of production and use, strict precautions should be taken to prevent this poison from endangering everyone.

Future Prospects

Taste the wonders of chemical industry, and it is unpredictable. Today there is a thing named Perchloryl Fluoride, that is, Clo
F, which is specific in nature and has unlimited uses.
This thing, although not widely known, but its future prospects can be called grand. In the field of chemical industry, it may open up new paths to increase the efficiency of various processes. On the road of scientific research, or as a weapon, the student assistant explores the subtle knowledge and explores the secrets of material nature.
We should be diligent in our hearts, study its essence, and hope for the future, so that Clo < F can be used to its full potential, contribute to the progress of the world, and live up to the expectations of the future, so as to open up new chemical phenomena and reach the unfinished grand road.

Where to Buy Perchloryl Fluoride ((Clo3)F) in China?

As a trusted Perchloryl Fluoride ((Clo3)F) 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 Perchloryl Fluoride ((Clo3)F) 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 chemical properties of Perchloryl Fluoride ((ClO3) F)?

Perchloroyl fluoride (\ (ClO_3) F\)) has specific chemical properties and has attracted much attention in the fields of chemistry.
Perchloroyl fluoride has strong oxidation, which is one of its key properties. In its molecular structure, chlorine is in a high valence state, which makes it capable of grabbing electrons and can react with many substances. In case of reducing substances, such as metal elementals, it can often react rapidly to oxidize metals into corresponding compounds. And this reaction is often violent, which can be accompanied by heat generation and luminescence.
Furthermore, perchloroyl fluoride has certain reactivity. It can interact with a variety of active compounds containing hydrogen. When it meets with water, or undergoes a hydrolysis reaction, chlorine-containing acids and hydrogen fluoride are formed. This hydrolysis reaction is carried out step by step, and intermediate products may be formed at the beginning, and the final products vary according to the reaction conditions.
The stability of perchloroyl fluoride is also special. At room temperature and pressure, it can still maintain a relatively stable state; when it encounters high temperature, open flame or the presence of specific catalysts, the stability decreases abruptly, or the decomposition reaction is caused. During decomposition, highly active free radicals may be released, triggering a chain reaction. In some industrial processes or storage scenarios, potential risks must be treated with caution.
Its volatility is also an important property. Perchloryl fluoride is volatile and can slowly escape into the gas phase at room temperature. This property not only affects its concentration distribution in the reaction system, but also affects the safety of the operating environment. Because it is toxic or harmful to the human body, it is necessary to pay attention to ventilation during operation to prevent harm to the health of the operator.

What are the Physical Properties of Perchloryl Fluoride ((ClO3) F)?

Fluorine perchlorate (\ (ClO_3) F\) has unique physical properties. It is a colorless gas that disperses in space in a gaseous state under standard conditions. The boiling point of this substance is about -47.5 ° C. The extremely low boiling point makes it volatile at room temperature and pressure, like clouds dissipating and disappearing in an instant. The melting point is about -167 ° C. It can condense into a solid state in an extremely cold environment, such as ice crystals hidden in the dark of extreme cold.
Fluorine perchlorate has a heavier density than air, and its gas seems to be hidden in the undercurrent at low altitude, flowing slowly. And soluble, soluble in specific organic solvents, but limited solubility in water, like oil droplets floating on the water surface, difficult to melt.
Furthermore, fluorine perchlorate can undergo a phase change under specific conditions. When it warms up, it turns from liquid to gaseous, like ice dissolving and melting, and dissolves into formless; when it cools down, it condenses from gaseous to liquid or even solid, just like water vapor turns into frost when it is cold. The transformation of the form shows the wonders of physical properties. Under different temperature and pressure environments, it shows people in various phases, showing the unique physical properties, which is a wonderful scene of the material world.

Where is Perchloryl Fluoride ((ClO3) F) used?

Perchloroyl fluoride (ClO
In the field of aerospace, perchloroyl fluoride can be used as a strong oxidizing agent. The propellant of aerospace needs strong oxidation power to help the fuel ignite and propel the aircraft into the air. Perchloroyl fluoride has strong oxidation properties and can react efficiently with fuel, making the combustion rapid and the thrust increase greatly, helping the spacecraft to soar into the sky and into the vast sky.
In the chemical industry, it is an important intermediate. It can participate in a variety of organic synthesis reactions to make special materials. Such as the production of special plastics and fibers, their participation in the reaction can change the properties of materials, increase their temperature resistance, wear resistance and corrosion resistance, so that materials can stick to their duties in harsh environments, and are widely used in equipment, construction, electronics and other industries.
In the field of electronics, perchloroyl fluoride also has its function. Can be used to etch semiconductor materials. In the delicate process of chip manufacturing, it is necessary to precisely etch materials to form complex circuits. Perchloroyl fluoride can precisely etch excess materials under specific conditions due to its unique chemistry, helping chip manufacturing to achieve nanoscale accuracy, and promoting the development of electronic devices to smaller, faster and stronger environments.
In the path of scientific research and exploration, perchloroyl fluoride is a powerful tool for studying the mechanism of chemical reactions. Chemists use its unique structure and active chemistry to explore the secrets of reaction paths and dynamics, which contribute to the development of chemical theory and help the academic community understand the way of material change.

What is Perchloryl Fluoride ((ClO3) F)?

The method of preparing fluorine perchlorate ($ (ClO_ {3}) F $) has been studied by chemists in the past. It can usually be obtained by reacting anhydrous hydrogen fluoride with perchlorate. Anhydrous hydrogen fluoride is carefully injected into a special container containing perchlorate, which needs to be able to resist the strong corrosive properties of hydrogen fluoride. The two react slowly at suitable temperatures and pressures.
Another way is to use antimony pentafluoride as a catalyst to promote the interaction of perchloric acid and fluorinating agent. In this process, antimony pentafluoride plays a key role in reducing the energy required for the reaction and accelerating the reaction process. Under the catalysis of antimony pentafluoride, perchloric acid and fluorinating agent are mixed in a specific stoichiometric ratio and reacted in a specific reaction device.
After the reaction is completed, the product may contain impurities and must be purified. The method of distillation is commonly used to separate fluorine perchlorate by using the difference in the boiling point of each substance. During distillation, precise temperature control makes fluorine perchlorate vaporized first, and then condensed to obtain pure fluorine perchlorate.
Furthermore, during the preparation process, safety is of paramount importance. Hydrogen fluoride and many reactants are highly corrosive and toxic, so the operation must be in a well-ventilated environment, and the experimenter must wear protective equipment to prevent self-harm. The device must also be tight to prevent material leakage. In this way, pure fluorine perchlorate can be obtained.

What are the effects of Perchloryl Fluoride ((ClO3) F) on the environment and human body?

"Tiangong Kaiwu" was written in the Ming Dynasty. At that time, there was no knowledge of compounds such as perchloroyl fluoride ((ClO 🥰) F). However, it tried to answer in the style of ancient proverbs:
Perchloroyl fluoride is a substance studied by today's chemistry. Its impact on the environment is quite huge. If perchloroyl fluoride escapes in the atmosphere, it may disturb the balance of the atmosphere. It is active or phase with various components in the atmosphere, causing climate change. And it may be damaged in the ozone layer, weakening the shielding of ozone and enhancing ultraviolet radiation, endangering all things.
As for the human body, perchloroyl fluoride is toxic and corrosive. If people inhale, it will hurt the respiratory tract, causing coughing, shortness of breath, and even breathing difficulties. It touches the skin, can cause burns, damage the integrity of the skin. Entering the eyes, harm the eyes, and cause vision damage. Long-term exposure to perchloroyl fluoride, or damage the human organs, reduce the ability of immunity, and greatly increase the risk of disease. Therefore, in perchloroyl fluoride, we should be careful and study protective methods to avoid its harm to the environment and human body.

What are the main uses of Perchloryl Fluoride ((Clo3) F)?

Perchloroyl fluoride ((ClO 🥰) F) is also a chemical substance. Its main users cover the following numbers.
First, in the field of organic synthesis, perchloroyl fluoride can be a strong oxidizing agent. It can participate in many oxidation reactions, causing the structure of organic matter to change and become other useful compounds. For example, specific unsaturated hydrocarbons can be oxidized to introduce oxygen-containing functional groups. The reactivity and functional properties of organic compounds pave the way for the synthesis of complex organic molecules.
Second, in the preparation of energetic materials, perchloroyl fluoride is also useful. Due to its high energy properties, it can be integrated into energetic systems to increase the energy density of materials and enhance the efficiency of explosion or combustion. This is crucial for improving weapon performance in fields such as explosives.
Third, in some industrial catalytic processes, perchloroyl fluoride may act as a catalyst or co-catalyst. With its special chemical activity, it changes the rate and selectivity of chemical reactions, making the reaction more efficient and accurate to the desired product, improving the efficiency and quality of industrial production.
Fourth, in the field of research, perchloroyl fluoride is of great importance to researchers. Due to its unique chemical properties, it can be used to explore new chemical reaction paths and mechanisms, broaden the boundaries of chemical cognition, and provide experimental basis and new ideas for the development of chemical theory.

What are the Physical Properties of Perchloryl Fluoride (Clo3) F?

Perchloroyl fluoride ($ (ClO_3) F $) has special physical properties. It is a colorless gas. It smells like chlorine and is stable under normal conditions. It can be dangerous when it encounters hot topics or flammable substances.
Its boiling point is about -46.8 ° C, and its melting point is about -167 ° C. The density is heavier than air, slightly soluble in water, and can react with alkali. The vapor pressure of this substance is quite high, and it can evaporate quickly at room temperature.
Looking at its molecular structure, the chlorine atom is centered, and it is connected to three oxygen atoms by double bonds and a fluorine atom by single bonds. This structure makes the substance highly oxidizing. Due to its chemical properties, the distribution of electron clouds is uneven, the electronegativity of fluorine and oxygen is high, and chlorine shows a high positive valence state, so it has a strong electron potential and is a strong oxidizing agent in many reactions.
The dielectric constant of perchloroyl fluoride has its own characteristics in similar compounds, which affects its behavior in electric fields. In some electrically related systems, this property can affect the distribution and transfer of electric charges. It has specific uses in industry and scientific research, but because of its potential danger, safety regulations should be followed when using and storing to prevent unexpected changes.

What are the Chemical Properties of Perchloryl Fluoride ((Clo3) F)?

Perchloroyl fluoride (ClO
Perchloroyl fluoride is a colorless gas at room temperature and pressure, with a sharp and pungent odor. It is highly oxidizing and can react with a wide range of substances. In the case of reducing substances, such as active metal elements, an oxidation-reduction reaction can occur in an instant, the metal is oxidized, and the perchloroyl fluoride itself is reduced, and the energy is released suddenly in the process, like the wrath of thunder.
Its hydrolytic properties are also worth noting. When exposed to water, perchloroyl fluoride will slowly hydrolyze to form perchloric acid and hydrogen fluoride. Both of these are corrosive, like ancient poisons, which can erode many materials, such as metals and glass.
In terms of stability, under normal conditions, perchloroyl fluoride is relatively stable. However, if it is at high temperature, high pressure or encounters a specific catalyst, it is easy to decompose, releasing oxygen, chlorine and other chlorine-containing compounds, just like a hidden hidden danger. Once triggered, it is extremely harmful.
Furthermore, perchloroyl fluoride encounters organic matter, and there is also a latent risk. Because of its strong oxidizing properties, it may react violently with organic matter, or even cause an explosion, as if a potential crisis, once touched, the consequences are unimaginable.

What are the precautions for Perchloryl Fluoride ((Clo3) F) in the production process?

Perchloroyl fluoride ((ClO) F) is a crucial raw material in the chemical industry, but it is quite risky in the production process and requires many precautions.
First, it is related to safety protection. Perchloroyl fluoride is highly oxidizing and corrosive, and can cause serious burns when it touches the human body. During production, operators must wear complete protective equipment, such as protective clothing, protective gloves, protective masks, etc., to prevent direct contact with the human body. And the workshop must be well ventilated and equipped with high-efficiency ventilation facilities to disperse the leaking gaseous perchloroyl fluoride in time to reduce its concentration in the air and prevent accumulation from causing danger.
Second, pay attention to the reaction conditions. The preparation reaction of perchloroyl fluoride usually requires a specific temperature, pressure and catalyst. Excessive temperature or pressure can cause the reaction to go out of control and cause serious accidents such as explosions. Therefore, the reaction parameters must be precisely controlled, and the reaction process must be monitored and regulated in real time through an advanced automated control system to ensure that the reaction proceeds smoothly within a safe range.
Third, pay attention to storage and transportation. The container for storing perchloroyl fluoride must have good pressure resistance and corrosion resistance, and should be placed in a cool, dry and ventilated place, away from fire, heat and flammable materials. The transportation process should also be extra careful, follow relevant laws and standards, and use special transportation vehicles and equipment to ensure safety during transportation and prevent damage and leakage of the container.
Fourth, emergency response cannot be ignored. The production site should be equipped with a complete emergency plan and emergency equipment, such as fire extinguishers, eye washers, sprinklers, etc. Operators must undergo professional emergency training and be familiar with the coping methods for emergencies such as high chloryl fluoride leakage and fire, so as to deal with accidents quickly and effectively and reduce losses and hazards.

What are the environmental effects of Perchloryl Fluoride ((Clo3) F)?

"Tiangong Kaiwu" is a strange book of ancient times, containing the skills of hundreds of workers, but perchloryl fluoride ((ClO
Perchloryl fluoride, a chemical substance, is active. It is in the atmosphere and can cause harm. This substance may rise in the stratosphere and destroy the ozone layer. The ozone layer, like the canopy of the sky, protects all things from the sun's ultraviolet rays. Perchloryl fluoride enters the stratosphere, and through various reactions such as photolysis, produces chlorine-containing free radicals. This free radical, like a tiger, is fierce and fights against ozone. When ozone encounters it, it falls apart and the ozone layer gradually thins.
And perchloryl fluoride in the troposphere is not a good kind. It may participate in the generation of photochemical smog. Photochemical smog, such as haze, chaos. It contains many harmful substances, such as ozone, peroxyacetyl nitrate, etc., which damage the respiratory system, cause cough, asthma and other diseases, and damage plants, make leaves wither and flowers, and affect the ecological balance.
And perchloryl fluoride emissions, or from chemical processes, rocket propellants, etc. Today, we should be careful, control its emissions, develop alternative methods, protect our mountains, rivers, blue skies and white clouds, and ensure the tranquility of the environment and the harmony of the ecology.