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Home Products Barium Copper(2+) Phthalocyanine-29,31-Diide-8,22-Disulfonate (1:1:1)

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Barium Copper(2+) Phthalocyanine-29,31-Diide-8,22-Disulfonate (1:1:1)

Specifications

HS Code	192171
Chemical Formula	Ba[Cu(C32H14N8O6S2I2)]
Molecular Weight	1053.81 g/mol (approximate, needs accurate calculation based on isotope abundances)
Appearance	Typically a colored solid, color may vary based on purity and form
Solubility	Solubility characteristics depend on solvent; may be sparingly soluble in water, more soluble in some polar organic solvents
Melting Point	Specific melting point data would require experimental determination
Density	Density value needs experimental measurement
Stability	Stable under normal conditions, but may react with strong oxidizing or reducing agents
Crystal Structure	Crystal structure details would require X - ray diffraction studies
Optical Properties	Exhibits characteristic absorption and fluorescence spectra in certain wavelength ranges

As an accredited Barium Copper(2+) Phthalocyanine-29,31-Diide-8,22-Disulfonate (1:1:1) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Barium Copper(2+) Phthalocyanine compound: Pack of 100g in a sealed, chemical - resistant bag.
Shipping	Shipment of Barium Copper(2+) Phthalocyanine - 29,31 - Diide - 8,22 - Disulfonate (1:1:1) must follow chemical transportation regulations. Use proper packaging to prevent breakage and ensure safe handling during transit.
Storage	Store Barium Copper(2+) Phthalocyanine - 29,31 - Diide - 8,22 - Disulfonate (1:1:1) in a cool, dry place. Keep it away from heat sources, direct sunlight, and moisture, as these can affect its stability. Store in tightly - sealed containers to prevent contamination and ensure its integrity for future use.

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Certification & Compliance

Barium Copper(2+) Phthalocyanine-29,31-Diide-8,22-Disulfonate (1:1:1) is manufactured under an ISO 9001 quality system and complies with relevant regulatory requirements.
COA, SDS/MSDS, and related certificates are available upon request. For certificate requests or inquiries, contact: sales7@alchemist-chem.com.

Barium Copper(2+) Phthalocyanine-29,31-Diide-8,22-Disulfonate (1:1:1)

General Information

Historical Development

Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1) This thing was not known to the public in the past. However, as time went by, the wise men worked hard in the field of chemistry and studied its physical properties.
In the past, the masters gradually discovered the mystery of this compound with keen insight and unremitting research. From the initial accidental discovery to the subsequent in-depth analysis of its structure and characteristics, it has gone through countless hardships. At first, it was confusing, and it was determined to analyze its composition and its reaction with exquisite methods and rigorous regulations.
Therefore, this compound has gradually emerged from obscurity, emerging in the fields of materials and chemical industry, contributing to the advancement of science and technology and the rise of civilization. It has become an important chemical product today. Its historical evolution is a good proof of the journey of chemical exploration.

Product Overview

"Object Description"
There is now a thing called "Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1) ". This is a chemical synthesis. Its structure is unique, containing elements such as barium (Barium) and copper (Copper), combined in a specific ratio, on the structure of phthalocyanine (Phthalocyanine), and modified by iodine (Diide) and sulfonate (Disulfonate).
This substance may have special chemical properties and may have potential uses in materials science and other fields. Its color, solubility, stability and other characteristics depend on its molecular structure. For example, phthalocyanine compounds often have good optical properties, and the introduction of iodine and sulfonic acid groups may change the electron cloud distribution of the compounds, thereby affecting their conductivity and adsorption. The study of this substance can pave the way for the development of new chemical materials, so as to promote the progress of science and benefit the world.

Physical & Chemical Properties

There is a substance called Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1). The physical and chemical properties of the substance are worth exploring.
The shape of this substance is either powder or crystalline, and its color or unique color can be identified. In terms of solubility, it may be soluble in some solvents, but not in others. This is related to the properties of the solvent and the forces between the molecules of the substance. Thermal stability is also an important property. When heated, it can maintain the stability of the structure or change at a specific temperature, such as decomposition, phase transformation, etc.
In terms of chemistry, the atoms in its molecular structure are connected by specific bonds, giving it chemical reactivity. Or it can react with some reagents such as substitution and addition, which are all determined by its structure. And its electronic properties also affect its ability to participate in redox and other reactions. A detailed study of its physical and chemical properties can open up the way for its application, and has potential applications in materials, catalysis and other fields.

Technical Specifications & Labeling

Today there is a thing called Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1). The method of making it depends on the specific technical specifications.
Where this thing is made, the ratio of materials, the control of heat, and the process of reaction are all determined. Materials, each has its own division, according to the proportion, and there should be no slight difference. The heat, either warm or blazing, changes in time to promote a smooth reaction. During the reaction process, when you pay close attention and follow the norms, you can make a good product.
Its identification (product parameters) is also important. The standard of quality, the analysis of ingredients, and the description of properties should all be detailed. In this way, the characteristics and uses of this thing can be known, and it can be used in all kinds of uses. Only by following this technical specification and labeling can we make this thing that can be used.

Preparation Method

The method of preparing barium-copper (ⅱ) phthalocyanine-29,31-diiodine-8,22-disulfonate (1:1:1) is related to raw materials and production processes, reaction steps and catalytic mechanisms. First prepare copper salts, barium salts and phthalocyanine-related raw materials, which are all key materials. In a special reactor, put it in a precise ratio. Control the temperature in a suitable range, or need to be supplemented with a specific catalyst to promote the speed and efficiency of the reaction. The reaction is divided into several steps, each step is carefully observed, and the temperature is adjusted and controlled according to its characteristics. After the reaction is completed, the impurities are removed through separation, purification and other processes to obtain a pure product. In this process, the quality of the raw materials, the refinement of the process, the control of the reaction, and the wonders of catalysis are all essential for the production of high-quality products.

Chemical Reactions & Modifications

Today there is a product called "Barium Copper (2 +) Phthalocyanine - 29,31 - Diide - 8,22 - Disulfonate (1:1:1) ". As a chemical researcher, I often study the chemical reactions and modifications of this product.
The reaction of this product is related to many chemical mechanisms. Under specific conditions, it can combine with various substances, or decompose, or recombine, and vary widely. However, the precise control of the reaction is not easy, and various factors such as temperature, pressure, and ratio of reactants must be studied in detail.
As for modification, it is aimed at making its performance more excellent. Either increasing its stability or enhancing its activity depends on clever methods. After repeated experiments, suitable reagents and processes were found to fine-tune its structure and improve its performance. In this way, this product can have better utility and play a greater value in various fields such as industry and scientific research.

Synonyms & Product Names

Today there is a thing called Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1). The same as the trade name of this thing is also what we have studied. Its depth and delicacy.
This thing is also in the field of transformation, and it has its own characteristics. Its similarity implies the secret of its formation, and the trade name recognizes its unique use. We study this thing, hoping to clarify its similarity and the meaning of the trade name.
If it is the same, or if it is created by its transformation, the proportion of its ingredients will be described by the essence. The trade name either emphasizes its efficacy, or recognizes its appearance, in order to attract people's attention. We have inspected the same trade name of this thing, hoping to make it easier for the seller to communicate with each other.

Safety & Operational Standards

Barium copper (ⅱ) phthalocyanine - 29,31 - diiodine - 8,22 - disulfonate (1:1:1) Safety and operating specifications
Barium copper (ⅱ) phthalocyanine - 29,31 - diiodine - 8,22 - disulfonate (1:1:1), is an important substance in chemical research. During the research operation, safety is the first priority, and specific specifications must be followed.
Where the use of this substance is involved, the researcher should clean his hands and face, wear clean protective clothing, and wear gloves and goggles to prevent skin and eyes from touching it. When taking it, it is best to use it in a well-ventilated place or in a fume hood to prevent it from spreading dust and being absorbed by breathing. If dust rises, leave the scene quickly and go to a place with fresh air, and do not panic to ensure safety.
Store this object in a dry, cool and ventilated place, away from fire and heat sources, to prevent accidents. It should be separated from oxidizing and reducing substances to avoid danger caused by their interaction. Every storage change must be carefully remembered for investigation.
If it accidentally touches the skin, rinse with plenty of water, followed by soap. If it enters the eyes, immediately open the eyelids, rinse with flowing water or normal saline, and seek medical attention immediately. If this substance spills in the operation room, cut off the fire source first, and prohibit people from moving around at will to prevent proliferation. Then carefully collect it with clean equipment, place it in a designated container, and dispose of it in accordance with relevant regulations. Do not discard it at will.
In short, in the research operation of barium copper (ⅱ) phthalocyanine-29,31-diiodine-8,22-disulfonate (1:1:1), strictly abide by safety and operating standards to ensure the safety of researchers and promote the smooth progress of research.

Application Area

Taste and hear all kinds of strange things, each has its own use, today said Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1) This thing. It can be used in many fields.
In the dyeing and weaving industry, it can be used as a coloring agent to make the fabric bright and lasting, and it will not fade for a long time. It is like a natural color, increasing its beauty and value. In the field of optics, it has unique optical properties and can be used in optical components, such as improving the transmittance of lenses and filtering functions, so that the object can be seen more clearly. In terms of electronic materials, it can help improve the performance of electronic devices, improve their conductivity and stability, and make electronic devices run more smoothly and efficiently. From this perspective, the wide application of this material cannot be ignored.

Research & Development

Taste the way of scientific research, the most important thing is to explore and innovate. Today there is Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1) This compound has been studied by our generation for a long time.
At the beginning, I observed its structure, which was exquisite and complex. It was like a natural chess game, and the whole game was messy. Then I used various techniques to analyze its components and distinguish its characteristics. In the reaction environment, the temperature and pressure were carefully studied, and the difference was absolutely different, or the result was false.
During the period, I encountered difficulties repeatedly, and the results of the experiment may not be as good as expected. However, we did not dare to slack off, repeatedly infer and correct the plan. After months of hard work, I gradually gained something. This compound exhibits unique properties under specific conditions, or can be used in a certain field to contribute to its development. We will continue to study and hope to explore more, so as to promote the application of this compound and make a modest contribution to the progress of scientific research.

Toxicity Research

The toxicity of barium copper (ⅱ) phthalocyanine-29,31-diiodine-8,22-disulfonate (1:1:1) has been studied. This compound is new and has been used in industry and scientific research. However, its toxicity is unknown, so it is important to investigate.
Using various experimental methods to observe its effects on organisms. Taking animals as samples, the physiological and behavioral changes after ingestion of this compound were observed. And cell culture was used to explore its effects on cell growth and metabolism.
Initial results show that this compound may be potentially toxic. In animals, it can cause specific organ damage and abnormal behavior. In cell experiments, cell growth is inhibited and metabolic pathways are also changed. However, this is only a preliminary conclusion, and more research is needed to collect extensive data and analyze the mechanism in detail to determine the degree of toxicity and harm, so as to lay the foundation for safe use and risk prevention in the future.

Future Prospects

Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1) Although this object is not widely known today or not, its future prospects are really shining.
It covers its unique structure and performance. Although the current research may still be in the early stages, it will surely emerge in various fields over time. For example, electronic devices, or with their characteristics, can optimize performance and make efficiency to the next level; in the field of materials science, or as the foundation of innovation, open up a new path.
My generation expects that in the future, with advanced scientific research, our understanding of it will be more subtle, and its application will also be expanded. At that time, this object may be the driving force for promoting science and technology, leading to new trends in future development, finding good solutions to many problems, and achieving unfinished business. As everyone wishes, its future is bright, and the future development is really full of expectations.

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Frequently Asked Questions

As a leading Barium Copper(2+) Phthalocyanine-29,31-Diide-8,22-Disulfonate (1:1:1) supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the physical properties of Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1)

The physical properties of barium-copper (ⅱ) phthalocyanine-29,31-diiodine-8,22-disulfonate (1:1:1) are as follows:
The morphology of this compound often shows a specific crystal structure or powder shape, and its appearance may have a specific color due to the interaction between atoms and groups in the molecular structure. In terms of solubility, due to the presence of intramolecular sulfonic acid groups, it may have a certain solubility in polar solvents such as water, but its solubility is also affected by factors such as temperature and solvent polarity. The temperature increases, or the solubility increases.
Its stability is quite high, and the chemical bond energy and conjugate structure in the molecule endow it with the ability to resist changes in the external environment. The conjugated large π bond structure of the phthalocyanine ring reduces the molecular energy and enhances the stability.
In terms of optical properties, due to the existence of the conjugated system, it has absorption characteristics in a specific wavelength range or exhibits a specific color. This absorption characteristic is also related to the substituents in the molecular structure. The introduction of iodine atoms and sulfonic acid groups may cause the absorption spectrum to shift.
Thermal stability is also an important physical property. Within a certain temperature range, the stability of structure and properties can be maintained. However, when the temperature exceeds a certain threshold, or chemical changes such as decomposition and structural rearrangement occur, this temperature threshold is closely related to the chemical bond energy and crystal structure within the molecule. The conductivity of
is different from that of ordinary organic compounds due to the action of copper ions and sulfonic acid groups. Sulfonic acid groups can provide ion conduction paths, and the presence of copper ions may affect the distribution of electron clouds, which in turn affects conductivity. The above physical properties are interrelated and restricted by many factors. In-depth investigation of them will help to clarify the behavior of the compound in various application scenarios.

Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1)

Barium (Barium), copper (II) phthalocyanine - 29,31 - diiodine - 8,22 - disulfonate (1:1:1) This compound has unique chemical properties. In terms of solubility, it exhibits certain solubility in water due to the presence of sulfonic acid groups. The hydrophilicity of sulfonic acid groups allows some molecules to interact with water molecules to form hydrated ions or disperse systems. In terms of thermal stability, the structure of phthalocyanine is relatively stable and can withstand a certain temperature. During the heating process, the chemical bonds in the molecule need to absorb enough energy to break. Generally, under common heating conditions, the structure can be maintained stable. Its chemical stability is also more prominent. The conjugated system of phthalocyanine ring imparts high stability to the molecule, and it is not easy to chemically react with common chemical reagents, such as general acids and bases, without special conditions. However, when encountering strong oxidizing agents or reducing agents, reactions may occur due to changes in the distribution of electron clouds within the molecule. In terms of optical properties, due to the existence of a large conjugate system, it absorbs light of specific wavelengths, and presents specific colors in the visible or near-infrared light region, which can be applied to light-related fields. This compound may also participate in some chemical reactions involving electron transfer due to the presence of metal ions (copper ions). The valence state of copper ions can change under suitable conditions, thereby triggering changes in the overall properties of the compound.

What is the application field of Barium Copper (2 +) Phthalocyanine - 29,31 - Diide - 8,22 - Disulfonate (1:1:1)

Barium, copper (ⅱ) phthalocyanine - 29,31 - diiodine - 8,22 - disulfonate (1:1:1), which is used in printing and dyeing, catalysis, optoelectronic devices and many other fields.
In the field of printing and dyeing, it can give fabrics excellent color and fastness due to its special molecular structure and properties. Because of its high stability to light, heat and chemicals, it can ensure that the printed and dyed fabrics can last for a long time under the influence of long-term use and the environment. And it has good affinity for fabrics and can be evenly colored, resulting in delicate and uniform printing and dyeing effects.
In the field of catalysis, this compound exhibits excellent catalytic activity due to the synergistic effect of central metal copper ions and phthalocyanine ligands. It can be used in many chemical reactions, such as oxidation reactions, reduction reactions, etc. It can reduce the activation energy of the reaction, speed up the reaction rate, and its own properties remain unchanged after the reaction, and it can be reused, which has the advantages of high efficiency and economy.
In terms of optoelectronic devices, its unique optoelectronic properties make it an excellent material for manufacturing optoelectronic devices. Such as organic solar cells, it can effectively absorb light energy and convert it into electrical energy. Due to its strong absorption of specific wavelengths of light, it can improve the photoelectric conversion efficiency of the battery. In organic Light Emitting Diode, it can be used as a luminescent material to emit specific color light, providing assistance for the development of display technology.

Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1) What is the preparation method

A compound of barium (Ba), copper divalent ion (Cu ² 🥰) and 29,31-diiodine-8,22-disulfonic acid-based phthalocyanine (substance ratio 1:1:1) was prepared. The preparation method is as follows:
Prepare 29,31-diiodine-8,22-disulfonic acid-based phthalocyanine first. Take an appropriate amount of phthalocyanine matrix and put it in a specific reaction vessel. Under suitable reaction conditions, such as suitable temperature, pressure and catalyst, carry out iodization reaction to obtain 29,31-diiodine phthalocyanine. Then, this product is reacted with a sulfonating reagent, and after controlling the reaction process and conditions, 29,31-diiodine-8,22-disulfonic acid phthalocyanine can be obtained.
Then prepare a solution containing divalent copper ions. Take a copper salt, such as copper sulfate, dissolve it in an appropriate amount of solvent, such as water, stir to fully dissolve it, and obtain a homogeneous solution containing Cu ².
The 29,31-diiodine-8,22-disulfonic acid phthalocyanine obtained above is dispersed in a suitable solvent to form a uniform dispersion system. Under gentle stirring, the solution containing Cu ² ² was slowly added dropwise, and the reaction temperature and dropwise rate were controlled to fully coordinate and bind Cu ² ² to 29,31-diiodine-8,22-disulfonyl phthalocyanine.
Subsequently, barium salts such as barium chloride or barium nitrate were taken to prepare a barium ion (Ba ² 🥰) solution. Under continuous stirring, the barium ion solution was slowly added to the above reaction system. After a period of reaction, ion exchange and complexation reactions occurred in the system, resulting in the formation of barium (Ba), divalent copper ion (Cu ² 🥰) and 29,31-diiodine-8,22-disulfonyl phthalocyanine (1:1:1) target products. After the
reaction is completed, the precipitate is collected by solid-liquid separation means such as filtration or centrifugation. The precipitate is washed several times with a suitable solvent to remove impurities. Finally, the product is dried at a suitable temperature to obtain pure barium (Ba), divalent copper ion (Cu ²) and 29,31-diiodine-8,22-disulfonic acid-based phthalocyanine (1:1:1) compounds.

Barium Copper (2 +) Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1)

The current product is called "Barium + Copper (2 +) + Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1) ", and its market prospects need to be reviewed in detail.
This product may have unique uses in the field of scientific research. In terms of its chemical composition, it contains barium, copper ions and specific phthalocyanine derivative structures. These combinations may endow it with specific optical, electrical or catalytic properties. At the forefront of materials science, it is essential to seek compounds with novel functions. If this product has outstanding properties, scientific researchers must compete to explore and open up a world for it.
At the industrial production level, if the synthesis method can be large-scale and cost-controllable, it may lead to related industrial changes. For example, in the manufacture of optoelectronic materials, if it can optimize product performance and reduce energy consumption, it will be favored by the industry. In order to achieve this situation, it is necessary to overcome the problems of the synthesis process and ensure the stability of product quality.
As for the market demand, it also depends on the downstream application. In emerging fields such as electronic displays and sensors, the demand for high-performance materials is increasing day by day. If this product can just meet such needs, the market prospect should be broad. But we must also be vigilant that similar competing products may be coming one after another. If you want to take the lead, you need to show the advantage and be the first to lay out.
In summary, "Barium + Copper (2 +) + Phthalocyanine - 29, 31 - Diide - 8, 22 - Disulfonate (1:1:1) " has potential, but if you want to shine in the market, you need to work together with the industry to break the barrier of synthesis and explore the way of application in order to win a place in the market tide.