Catalog |
name |
Description |
price |
R-R-3753 |
Pigment green 7 - Technical grade CAS :1328-53-6 |
Pigment Green 7 Technical Grade/CAS :1328-53-6 is a copper complex that is used in paints, plastics, and textiles. Pigment Green 7 Technical Grade is insoluble in water but soluble in organic solvents. The pigment has been shown to be carcinogenic at high doses, but not at low doses. It can cause tumors at the site of application and may also cause liver tumors in rodents. Pigment Green 7 Technical Grade is potentially toxic and should be handled with care. Pigment Green 7 Technical Grade is a copper complex that is insoluble in water but soluble in organic solvents. The pigment has been shown to be carcinogenic at high doses, but not at low doses. It can cause tumors at the site of application and may also cause liver tumors in rodents. Pigment Green 7 Technical Grade should be handled with care as it could potentially be toxic when ingested or inhaled.
We can mass produce (kg level), process scaling up, pilot supply, raw material supply, and intermediate production. Our production technology is mature and more cost-effective. Feel free to inquire at any time. |
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R-R-3754 |
Zinc phthalocyanine CAS :14320-04-8 |
Zinc phthalocyanine/CAS :14320-04-8 is a blue dye that is used in the manufacture of paints, plastics, and rubber. It has been shown to be a potential cancer treatment for skin cancer because it absorbs ultraviolet light. Zinc phthalocyanine can also be used in wastewater treatment as a coagulant and disinfectant. In addition, zinc phthalocyanine has been shown to have anti-microbial properties against opportunistic fungal and bacterial infections. This compound is also an antioxidant that can protect cells from damage caused by reactive oxygen species.
We can mass produce (kg level), process scaling up, pilot supply, raw material supply, and intermediate production. Our production technology is mature and more cost-effective. Feel free to inquire at any time. |
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R-R-3755 |
Iron(II) phthalocyanine CAS :132-16-1 |
Iron(II) phthalocyanine/CAS :132-16-1 is a catalyst that can be used in wastewater treatment and the synthesis of antimicrobial peptides. It is also used as an electrochemical electron transfer agent for the oxidation of fatty acids. Iron(II) phthalocyanine has been shown to have antimicrobial properties against gram-negative bacteria, such as E. coli, and gram-positive bacteria, such as Staphylococcus aureus and Bacillus subtilis. The antimicrobial activity arises from its redox potential and nitrogen atoms. Iron(II) phthalocyanine is synthesized by reacting dimethyl fumarate with phthalonitrile in the presence of sodium hydroxide or potassium hydroxide.
We can mass produce (kg level), process scaling up, pilot supply, raw material supply, and intermediate production. Our production technology is mature and more cost-effective. Feel free to inquire at any time. |
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R-R-3756 |
Cobalt phthalocyanine CAS No: 3317-67-7 |
Cobalt phthalocyanine/CAS No: 3317-67-7 is a model system used to study redox potentials, kinetic data and electrochemical impedance spectroscopy. It has been found to have a linear calibration curve for nitrite ion, which can be used for the detection of nitrite ions in biological samples. Cobalt phthalocyanine has also been shown to be an optical sensor that can detect the presence of malonic acid in cell nuclei. This material is resistant to degradation by oxygen and light, making it a good candidate for use as an electrode in electrochemistry.
We can mass produce (kg level), process scaling up, pilot supply, raw material supply, and intermediate production. Our production technology is mature and more cost-effective. Feel free to inquire at any time. |
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R-R-3757 |
Disodium Phthalocyanine CAS :25476-27-1 |
Disodium Phthalocyanine/CAS :25476-27-1 is a coordination complex that has been studied extensively for its optical properties. The coordination complex is activated when irradiated with light of an appropriate wavelength, and the activated molecule then reacts with oxygen to produce a redox reaction product. Disodium Phthalocyanine is a molecule composed of alternating single and double nitrogen atoms that are bonded together in a chain-like structure. It can be synthesized by combining carbon tetrachloride, copper sulfate, and ammonia in the presence of sodium or potassium salts at a high pressure. The resulting product is then heated to remove the sodium or potassium salt, followed by purification by recrystallization. The optical properties of Disodium Phthalocyanine depend on its molecular structure, which is determined by the number of nitrogen atoms present in the molecule. The more nitrogen atoms present in the molecule, the higher the energy required for activation. This means that it will take more time for radiation to activate.
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R-R-3758 |
Phthalocyanine tin(IV) dichloride CAS :18253-54-8 |
Phthalocyanine tin(IV) dichloride/CAS :18253-54-8 is a compound that is formed by the reaction of boron nitride with hydroxyl groups. This compound is a light-sensitive disinfectant, and can be activated by exposure to ultraviolet light. Phthalocyanine tin(IV) dichloride has been shown to have strong bactericidal activity against Gram-positive bacteria, such as Bacillus subtilis, Streptococcus pyogenes, and Staphylococcus aureus. It also has an anti-inflammatory effect in mice models of colitis. The chemical structure of this compound consists of a polycarboxylic acid group and an alkylthio group that are reactive functional groups. These reactive functional groups react with hydroxy groups from polyhydroxy compounds to form crystalline structures containing divalent hydrocarbon chains.
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R-R-3759 |
Magnesium(II) Phthalocyanine CAS:1661-03-6 |
Magnesium(II) Phthalocyanine (MgPc)/CAS:1661-03-6 is a molecule that has been used for the development of a model system for the study of hydrogen fluoride-induced DNA damage. This material has a high chemical stability and low energy light emission. It can be activated by radiation or light, which leads to the release of electrons from the MgPc molecules. These electrons are captured by oxygen molecules in the air to produce free radicals, which are highly reactive with other molecules such as DNA. The type strain that was used in this research was C. parvum, although it is not limited to this organism.
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R-R-3760 |
Tin(II) Phthalocyanine CAS :15304-57-1 |
Tin(II) phthalocyanine (SnPc)/CAS :15304-57-1 is a molecule that has the chemical formula SnPc. It is a material that has optical properties and can be used in optoelectronic devices. The molecule contains two tin atoms with four nitrogen atoms, which are bonded to each other through one oxygen atom. Tin(II) phthalocyanine can be activated by a number of methods, such as thermally or chemically, and the activation energy varies depending on the method. Tin(II) phthalocyanine interacts with anions and dianions due to its electron-rich nature, but is not able to form any bonds with metal ions.
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R-R-3761 |
Dilithium phthalocyanine CAS:25510-41-2 |
Dilithium phthalocyanine/CAS:25510-41-2 is a low-energy metathesis catalyst that is used in the synthesis of organic compounds. It is a coordination complex that has been shown to have a high chemical stability and to be resistant to radiation. The mechanism of action of dilithium phthalocyanine involves the formation of a covalent bond between two molecules or ions. The activation energy for this reaction is relatively low, making it an ideal catalyst for reactions involving ether linkages in which the hydrochloric acid acts as the base. One example of such a reaction is the synthesis of phthalocyanines from lithium and hydrogen chloride.
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R-R-3762 |
Copper(II) 2,9,16,23-tetra-tert-butylphthalocyanine CAS :39001-64-4 |
Copper(II) 2,9,16,23-tetra-tert-butylphthalocyanine/CAS :39001-64-4 is a metal ion that has been shown to exhibit photocurrent generation in the presence of light. Copper complexes form on the surface of this material and are responsible for the generation of photocurrents. The interface between the copper complex and the semiconductor matrix determines the surface structure and electron transport properties. Tunneling microscopy has been used to study the surface structures of these materials.
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