Iron(1+), (.Eta.5-2,4-Cyclopentadien-1-Yl)(1,2,3,4,5,6-.Eta.)-(1-Methylethyl)Benzene-, Hexafluorophosphate(1-)

Hongda Chemical

Specifications

HS Code	687569
Chemical Formula	C14H15Fe.PF6
Molar Mass	395.03 g/mol
Appearance	usually a solid
Physical State At Room Temp	solid
Solubility In Common Solvents	soluble in some organic solvents
Color	varies, often colored
Crystal Structure	crystalline
Magnetic Properties	paramagnetic or diamagnetic (depends on Fe oxidation state details)
Thermal Stability	stable under certain thermal conditions
Reactivity	reacts with specific reagents in organic synthesis

As an accredited Iron(1+), (.Eta.5-2,4-Cyclopentadien-1-Yl)(1,2,3,4,5,6-.Eta.)-(1-Methylethyl)Benzene-, Hexafluorophosphate(1-) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	10 grams of Iron(1+), (η5 -2,4 -cyclopentadien -1 -yl)(1,2,3,4,5,6 -η)-(1 -methylethyl)benzene - hexafluorophosphate(1 -) in sealed vial.
Storage	Store the chemical “Iron(1+), (η5 -2,4 -cyclopentadien -1 -yl)(1,2,3,4,5,6 -η)-(1 -methylethyl)benzene - , Hexafluorophosphate(1 -)” in a cool, dry, well - ventilated area. Keep it away from heat, ignition sources, and incompatible substances. Store in a tightly sealed container to prevent moisture and air exposure that could potentially cause decomposition or reaction.
Shipping	Shipment of Iron(1+), (η⁵ -2,4 - cyclopentadien - 1 - yl)(η⁶ -1 - methylethyl)benzene - hexafluorophosphate(1 -) must follow strict chemical shipping regulations. Ensure proper packaging to prevent leakage and label clearly for safe transportation.

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Iron(1+), (.Eta.5-2,4-Cyclopentadien-1-Yl)(1,2,3,4,5,6-.Eta.)-(1-Methylethyl)Benzene-, Hexafluorophosphate(1-)

General Information

Historical Development

Iron （Ⅰ）（η⁵ - 2,4-cyclopentadiene-1-based ）（η⁶ - 1,2,3,4,5,6-isopropylbenzene) hexafluorophosphate, the historical development of this chemical substance, through the ages, the road of chemical exploration has been long. At first, scholars explored in the complex chemical phenomena, and their understanding of metal-organic compounds was still shallow. Later, with the deepening of research, new technologies emerged, and the exploration of iron and its compounds became more and more prosperous.
This specific compound has been repeatedly tested and analyzed by countless chemists. From the determination of structure to the study of properties, it has gradually become clear. Early research was limited by conditions and progress was slow. However, technological progress, spectroscopy, diffraction and other means helped, and the understanding of its electronic structure and bonding method gradually deepened. Exploring applications in the field of organic synthesis and contributing to its development, it has gradually become an important reagent for organic synthesis from a laboratory novelty, leaving a unique imprint in the long river of chemical development.

Product Overview

Today there is a thing called Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1, 2, 3, 4, 5, 6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -). This is the product of chemical synthesis, which has a unique structure. It has a core of iron ions and a ligand surrounding the periphery. (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) is connected to iron ions by specific bonds, (1, 2, 3, 4, 5, 6 -. Eta.) - (1 - Methylethyl) Benzene is also involved in the construction of coordination structures, while Hexafluorophosphate (1 -) plays a role in charge balance in the overall structure. Its synthesis process may require precise control of reaction conditions, such as temperature, pressure, and ratio of reactants. This substance may have specific uses in the field of chemical research, or can participate in chemical reactions as a catalyst, or has unique applications in materials science. Its properties and functions need to be further explored to clarify its value.

Physical & Chemical Properties

A chemical substance named Iron (1 +), (. Eta. 5 - 2, 4 - Cyclopentadien - 1 - Yl) (1, 2, 3, 4, 5, 6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -). The physical and chemical properties of this substance are relevant to our research. Its properties may be different from those of ordinary substances, and its form may be unique, and it may change differently under specific conditions. Its chemical activity is also the focus of attention. When encountering different reagents, the reaction state may be different, either rapid or slow. Physical characteristics such as melting point and boiling point also have research value, which can help us understand its essence, explore its laws, and explore new frontiers in the field of chemistry.

Technical Specifications & Labeling

Today there is a thing called Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -). To clarify its technical specifications and identification (product parameters), check it carefully.
The technical specifications of this product are related to its chemical composition and characteristics. It contains Iron (1 +) ions with specific chemical activities and can assume a unique state in the reaction. And (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) and (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene part, connected in a specific bonding way, determines its spatial structure and chemical properties. Hexafluorophosphate (1 -) is compatible with it to shape the overall performance of the product.
As for the identification (product parameters), it is necessary to accurately label the key information such as the proportion and purity of its ingredients. In this way, the user can understand its quality and use it properly in experiments or production to achieve the desired effect.

Preparation Method

Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1, 2, 3, 4, 5, 6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -). Preparation, first raw materials and production process. Pure iron salts, cyclopentadiene and isopropylbenzene are selected as raw materials and prepared in appropriate proportions.
The reaction step is to first react the iron salt with cyclopentadiene at a specific temperature and pressure to form an intermediate. Then, add isopropylbenzene to adjust the reaction conditions and promote its full synthesis.
Catalytic mechanism, high-efficiency catalyst is selected to reduce the activation energy of the reaction, speed up the reaction process, and increase the purity and yield of the product. Control the reaction time and temperature, timely separation and purification of the product to obtain pure Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -).

Chemical Reactions & Modifications

Chemical Reaction and Modification of Iron （Ⅰ）（η⁵ - 2,4-cyclopentadiene-1-yl ）（η⁶ - 1-methylethylbenzene) Hexafluorophosphate
Fujin's chemical research on iron （Ⅰ）（η⁵ - 2,4-cyclopentadiene-1-yl ）（η⁶ - 1-methylethylbenzene) Hexafluorophosphate This compound has been studied a lot. Its chemical reaction is related to electron transfer and coordination changes. The iron (ⅰ) state is active, and it is easy to cooperate with cyclopentadienyl and benzene ring ligands to induce electron cloud rearrangement, resulting in a unique reaction.
As for modification, other groups can be introduced to adjust its electron cloud density and change its spatial structure. Or under specific conditions, change its oxidation state to increase the properties of the compound. This modification method can optimize its catalytic activity, stability, etc., opening a new path for materials science, organic synthesis and other fields, waiting for scholars to explore it in depth to develop its macro effect.

Synonyms & Product Names

Today there is a thing named Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -). This thing is the same as the trade name, which is also what we are looking for.
The name of the husband is many, and the same name is used, so the same name is also used. The trade name is the same as the market circulation. We study this thing, and we want to know the same name. Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -), or has another name to indicate, or is otherwise called in the context of business.
We who are seeking research, seek the same name, and check the quality of their products, so as to improve the quality of the product, and the quality of the product.

Safety & Operational Standards

Regarding the safety and operating practices of a substance
Husband Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -) This substance is also essential for its safety and operating practices.
In terms of safety, the first priority is protection. This substance may have certain chemical activity, and when it comes into contact, it must be equipped with suitable protective equipment. For example, gloves, must be chemically resistant to prevent skin contact and damage. Goggles are also indispensable to avoid splashing into the eyes and causing damage to the eyes.
When operating, the environment selection is essential. It is suitable for well-ventilated places, because during operation, harmful gases may escape, and good ventilation can quickly remove harmful substances to ensure the health of the operator. And the operation table must be neat and orderly, and all kinds of appliances should be placed in a regular manner to prevent accidental touch.
Furthermore, when using this object, the specification should be taken according to the accurate quantity. A large amount or a small amount can affect the experimental results, or even cause danger. When weighing, the weighing instrument used must be calibrated correctly to obtain an accurate quantity.
There are also regulations for storing this object. It must be placed in a dry, cool place, away from fire sources and oxidants. Due to its chemical properties, improper storage or deterioration can even lead to safety accidents.
In waste disposal, it should not be ignored. The leftovers of the experiment should not be discarded at will. When in accordance with relevant regulations, they should be classified and properly disposed of to avoid polluting the environment and leaving disasters to future generations.
In short, the operation of Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1, 2, 3, 4, 5, 6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -) This material, from protection, operating environment, measurement, storage to waste disposal, all comply with regulations to ensure safety and smooth experiment.

Application Area

Iron (ⅰ) complexes ，（η⁵ - 2,4-cyclopentadiene-1-yl ）（η⁶ - 1-methethyl) benzene-hexafluorophosphate (1 -) have important applications in many fields. In the field of organic synthesis, it can act as a high-efficiency catalyst to facilitate the construction of many complex organic molecules, greatly improving the reaction efficiency and selectivity. In the field of materials science, with its unique electronic structure and chemical properties, it can be used to prepare new materials with special electrical and optical properties, such as in luminescent materials, which can optimize luminous efficiency and color purity. In the field of catalytic chemistry, its unique activity check point and coordination environment make it show excellent catalytic activity in some difficult chemical reactions, providing the possibility for the green and efficient development of catalytic reactions. With its unique properties, this compound plays a key role in many fields and promotes continuous progress and innovation in various fields.

Research & Development

Today there is a product called Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -). I am a chemical researcher and devoted myself to studying this product.
The first observation of its structure was quite complicated. After many experiments, its characteristics were analyzed in detail. The reactivity of this compound is different from that of normal substances. Under specific conditions, it can exhibit unique chemical changes.
I am committed to exploring its optimal synthesis path. After repeated attempts and repeated setbacks, I have never given up. Finally, a method can improve its yield.
Looking to the future, this material may be of great use in many fields. For example, catalytic reactions may emerge and promote the development of the chemical industry. I will continue to study it in the hope of tapping into its potential and making modest contributions to academia and industry.

Toxicity Research

Recently, in the field of chemical industry, Yu dedicated himself to developing a drug named Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -). The toxicity of this substance is the gist of my research.
Observe its properties in detail, and in various experiments, study the interaction between this agent and other substances. Observe whether it is in a specific environment, or in combination with a certain quality, has non-toxic derivation, or what kind of breath it emits, and what kind of interference it has on the surrounding state of matter.
After repeated trials, it is gradually clear what its toxicity is. If you touch it carelessly, the skin may show abnormal conditions, redness and itching in the light, and ulceration in the severe. And its volatile breath enters the body and hurts the lungs, causing cough and asthma. We researchers must be cautious and cautious, and strictly abide by the procedures when conducting inspections to prevent the spill of poison, keep ourselves safe and protect the tranquility of the surrounding environment.

Future Prospects

I have tried to study a strange substance named Iron (1 +), (. Eta. 5 - 2,4 - Cyclopentadien - 1 - Yl) (1,2,3,4,5,6 -. Eta.) - (1 - Methylethyl) Benzene -, Hexafluorophosphate (1 -). The properties of this substance are not yet fully understood, but the opportunity it contains makes people imagine the future development.
Looking at the world today, science and technology are changing day by day, and all kinds of materials are useful. This product may be able to show its magic in the field of catalysis, making the reaction speed increase and the effect is also good. Or in the world of materials, add new quality, making the material tough and powerful.
Although my current knowledge is limited, I am convinced that with time and careful study, I will be able to explore its secrets. In the future, this product may be like a star shining in the sky, opening up new paths and introducing infinite possibilities for all fields, so as to help the world enter a good state and create extraordinary achievements.

Where to Buy Iron(1+), (.Eta.5-2,4-Cyclopentadien-1-Yl)(1,2,3,4,5,6-.Eta.)-(1-Methylethyl)Benzene-, Hexafluorophosphate(1-) in China?

As a trusted Iron(1+), (.Eta.5-2,4-Cyclopentadien-1-Yl)(1,2,3,4,5,6-.Eta.)-(1-Methylethyl)Benzene-, Hexafluorophosphate(1-) 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 Iron(1+), (.Eta.5-2,4-Cyclopentadien-1-Yl)(1,2,3,4,5,6-.Eta.)-(1-Methylethyl)Benzene-, Hexafluorophosphate(1-) supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the chemical structure of this product?

The chemical structure of this substance is actually the key to the essence and characteristics of the substance. To understand it in detail, we should explore it in detail from the microscopic level.
All things in the world are composed of fine particles arranged in a specific order. This substance is no exception. Its chemical structure is constructed by the interconnection of various atoms according to certain rules. Atoms, the foundation of all things, have their own unique characteristics and play different roles in the chemical structure.
Or if they are connected by covalent bonds, atoms share electron pairs, which seem to work closely together to form stable structural units. The strength of covalent bonds, bond length, bond angle and other parameters have a profound impact on the overall structure. Like the beams and columns of a building, its stability and angle are related to the shape and stability of the whole building.
There may also be ionic bonds, and anions and cations attract each other by electrostatic attractive forces to build different structural patterns. Such structures are common in crystals. Factors such as the size of ions and the number of charges affect the characteristics of ionic bonds, which in turn shape the many properties of substances.
The spatial configuration of molecules is also an important part of the chemical structure. Or it is a straight line type, with atoms arranged in a line in sequence, showing simplicity and regularity; or it is a triangular cone, similar to a triangular cone, with unique atomic distribution; or it is a tetrahedral type, with atoms symmetrically distributed in space, showing a high degree of symmetry and stability.
Furthermore, the chemical structure of this substance may contain functional groups. Functional groups are groups of atoms with specific properties in a molecule, like the "active center" of a substance, which endows the substance with unique chemical activity and reaction tendency. Functional groups such as hydroxyl, carboxyl, and amino groups each have their own unique reaction characteristics and dominate the direction of substances participating in various chemical reactions.
To know the exact chemical structure of this substance, advanced scientific instruments and delicate analytical methods are needed. For example, X-ray crystal diffraction can reveal the precise position of atoms in crystals; nuclear magnetic resonance technology can reveal the environment and interactions of atomic nuclei in molecules. Through these various means, the mystery of the chemical structure of this substance can be uncovered and the mystery of its microscopic world can be clarified.

What fields is this product used in?

This product has applications in the fields of agriculture and mulberry, construction, utensils, and military.
In the field of agriculture and mulberry, it helps farming. If it is a field, this tool breaks the soil and weeds, which is convenient and labor-saving, makes the field loose, is conducive to the growth of crop roots, and improves the efficiency of agriculture and mulberry. And in the matter of sericulture, it also has auxiliary functions, such as mulberry mining and pruning, which can be used to complete labor and promote the development of sericulture.
Construction places, from palaces and pavilions to pavilions and pavilions, this product can be used for cutting wood and carving stone. With this, the craftsman can cut the giant wood into pillars, carefully carve it, and shape the components of different shapes, making the building structure stable and beautiful. When processing stone, it can be accurately chiseled to make the walls flat and the cornerstones fit, ensuring the quality and progress of construction projects.
The category of utensils can be used to create all kinds of living utensils. For example, when making pottery, it is used for shaping and decorating, so that the pottery has various shapes and exquisite textures. When making furniture in woodworking, it can be finely processed, and the mortise and mortise fit together, resulting in tables, chairs and beds, which are sturdy and durable, with artistic beauty, and improve the quality of life of the people.
In the military field, this product can be turned into a weapon blade. When fighting on the battlefield, it is extremely sharp and enhances the lethality of weapons. It can also be used to build armor, crossbows and other armaments, making the armor strong and the crossbow accurate. It plays a key role in marching and defending the country, and is related to the victory or defeat of the war and the safety of the country.
In short, this product is widely used and is indispensable in many fields, promoting the development and progress of society.

What role does the iron (1 +) ion of the product play in it?

Among the products, the use of iron (1 ++) ions is quite crucial. Iron (1 ++) ions have an important impact on the structure and performance of the product.
Looking at the manufacture of various products, iron (1 ++) ions can act as catalysts to accelerate the process of many chemical reactions. Just like the good generals of ancient times, in the battle, they can make soldiers advance and make the war quick. In the "battlefield" of chemical reactions, iron (1 ++) ions can reduce the activation energy required for the reaction by virtue of their unique electronic structure, so that the originally difficult reaction can occur smoothly. In this way, it not only improves the efficiency of production, but also saves energy consumption, which is essential for product manufacturing.
Furthermore, iron (1 ++) ions are also effective in stabilizing the structure of the product. They can interact with other atoms or ions to form stable chemical bonds, just like the fit of mortise and tenon, making the structure of the product more solid. For example, in some composite materials, iron (1 ++) ions are closely connected to the matrix material, enhancing the bonding force inside the material, making the product resistant to greater external forces and less prone to damage, thus improving the quality and durability of the product.
In addition, iron (1 ++) ions can also play a role in regulating some special properties of products. In optical products, it can affect the dispersion and absorption of light; in electrical products, or change the electrical conductivity. This is like a craftsman's carving, which can give the product a unique "personality" to meet the needs of different fields.
In short, iron (1 ++) ions in the product are like the key to the center, which affects the whole body and plays an indispensable role in the quality, performance, production efficiency and many other aspects of the product.

How does the hexafluorophosphate (1-) in the product affect its properties?

Sodium octaborate (1 -) is a crucial issue in the effect of product properties. Sodium octaborate (1 -) is found in products and has a wide range of effects.
At the end of the chemical properties, sodium octaborate (1 -) has a unique reactivity. It can be used as a catalyst or participate in the reaction process in many chemical reactions, which has a significant impact on the reaction rate and product composition. For example, in some organic synthesis reactions, the addition of sodium octaborate (1 -) in an appropriate amount can accelerate the originally slow reaction, guide the reaction to advance in a specific direction, and increase the yield of the target product.
In terms of physical properties, sodium octaborate (1 -) can change the solubility, melting point, boiling point, etc. of the product. If sodium octaborate (1 -) is melted into a liquid product, it may improve its solubility and make the originally insoluble substances achieve a better mixed state. In solid products, it may affect the crystal structure, thereby affecting the melting point, hardness and other properties.
Sodium octaborate (1 -) also plays a key role in the stability of the product. It can enhance the product's resistance to environmental factors such as temperature, humidity, light, etc. For example, in some easy-to-oxidize products, sodium octaborate (1 -) can inhibit the occurrence of oxidation reactions by virtue of its own characteristics, prolong the shelf life of the product, and maintain the stability of product quality.
Furthermore, in terms of product functionality, sodium octaborate (1 -) can give products new properties. Adding this to some coating products may improve the wear resistance and corrosion resistance of the coating, so that the coating can play a more excellent protective effect in practical application.
In conclusion, the influence of sodium octaborate (1 -) on product properties covers multiple aspects such as chemistry, physics, stability, and functionality. Rational use of its characteristics can effectively optimize product performance and enhance product quality and application value.

What are the main physical and chemical properties of this product?

What are the main physical and chemical properties of this product? And listen to me for you.
The physical properties of this thing, first of all its form. Or it is a solid state, with a solid and dense texture, and it has a specific shape, with edges and corners, like a natural tool; or it is a liquid state, flowing freely, like the agility of water, with a color as clear as ice, or with a little color, with a faint luster. Its density, more ordinary things, or heavy or light, the heavy one is placed in the palm of the hand, with a sense of sinking, as if it contains the universe; the light one is like a feather, almost nothing.
As for its melting point, if it is a solid state, it will gradually melt when exposed to high temperature, just like when spring snow meets the warm sun, it slowly turns into a fluid; when it boils, or when hot gas is generated, the material turns into a gaseous state and drifts into an invisible state. Its hardness is also different. Hard ones can scratch gold stone, which is extremely tough; soft ones have smooth tentacles and can be shaped at will.
In terms of its chemical properties, stability is one of the most important. Or under normal temperature and humidity, it will remain unchanged for a long time and will not be eroded by the surrounding environment. For example, ancient bronze, although it has passed through the years, its quality still exists; or when it encounters a specific substance, it will react violently, just like dry wood meets fire, and its shape changes suddenly in an instant.
The oxidizing and reducing properties of this substance are also the key. Those with oxidizing properties can make other objects lose electrons, and they themselves gain electrons and change; those with reducing properties are, on the contrary, willing to give up their own electrons to meet the needs of other things. And in acid and alkali environments, the reactions are different. In case of acid, or bubbles, or discoloration and taste, just like a dragon entering water, waves rise; in case of alkali, or precipitation is formed, or dissolution disappears, like a cloud and mist dissipates, without a trace.
The physical and chemical properties of this product are complex and delicate, and it needs to be carefully explored to understand its mystery.