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| Synonyms | Trichlorotris(tetrahydrofuran)MolybdenuM(III), Min. 95%;Molybdenum(III) Iodide;Trichlorotris(tetrahydrofuran)MolybdenuM(III),Min.95%;Trichlorotris(tetrahydrofuran)MolybdenuM(III) |
| Appearance | Light orange solid |
| Molecular Weight | 418.61616 |
| Purity | ≧ 98% |
| Package Information | 100g, 500g, 12kg or customized |
The molybdenum(III) center possesses certain coordination unsaturation and reactivity, and can be further synthesized into other molybdenum complexes through reactions such as ligand substitution. It also exhibits good catalytic potential in activated carbon hydrogen bonding and olefin systems.
The tetrahydrofuran (THF) coordinating group in the molecule gives C12H24Cl3MoO3 good solubility in common organic solvents, making it easy to use in homogeneous reaction systems.
Trichlorotris(tetrahydrofuran)molybdenum(III) exhibits excellent performance in olefin polymerization, alkylation, and hydrogenation reactions, providing a stable catalytic environment and high conversion efficiency.
As a compound with a well-defined structure, its purity (usually not less than 95%) and composition are guaranteed, which is beneficial for scientific research and catalytic applications that require reproducibility.
Trichlorotris(tetrahydrofuran)molybdenum(III) can be used as a catalyst or catalyst precursor to promote a variety of organic synthesis reactions and develop novel catalytic systems. It has application potential in the laboratory synthesis and industrial production of chemical, pharmaceutical intermediates and fine chemicals.
This compound is an important model substance for studying the chemical behavior and homogeneous catalysis mechanism of molybdenum. It can also serve as a key precursor for the synthesis of other molybdenum complexes or materials.
Based on its metallic properties and tunable coordination environment, it also plays a role in the development of novel functional materials, such as specific metal-organic frameworks or heterogeneous catalysts.
Trichlorotris(tetrahydrofuran)molybdenum(III) is sensitive to both air and humidity. It must be stored and handled in a dry environment, and all operations must be carried out under the protection of an inert gas.
Heating will cause it to decompose and produce corrosive gases; therefore, the recommended temperature should be avoided.
Skin or eye contact may cause irritation or corrosion; protective gloves, goggles, or work clothes should be worn.
If spilled on the work surface, it should be treated with a dry, inert absorbent material (such as SiO2), and water should be avoided.
This product is for professional laboratory research use only. Non-professionals should not handle it. Disposal should comply with relevant regulations to avoid environmental pollution.
1. What are the main uses of trichlorotris(tetrahydrofuran)molybdenum(III)?
It is mainly used as a homogeneous catalyst or catalyst precursor, and has important applications in organic synthesis, chemical research, and materials science.
2. What is the typical purity of this compound?
Commercially available trichlorotris(tetrahydrofuran)molybdenum(III) typically has a purity of at least 95%. For specific purity information, please refer to the product manual.
3. Does it require a co-catalyst when used in olefin polymerization?
It usually requires the use of methylaluminoxane (MAO) or Lewis acid co-catalysts. The specific system needs to be optimized based on the reaction system.
Wolfa professionally supplies Trichlorotris(Tetrahydrofuran)Molybdenum(iii), supporting small-batch sampling and large-volume procurement needs. Packaging options include ordinary glass bottles, glass ampoules, metal ampoules, etc.
For product analysis reports (such as COA) or procurement consulting, please feel free to contact us at jomin@wolfabio.com at any time.
| Synonyms | Trichlorotris(tetrahydrofuran)MolybdenuM(III), Min. 95%;Molybdenum(III) Iodide;Trichlorotris(tetrahydrofuran)MolybdenuM(III),Min.95%;Trichlorotris(tetrahydrofuran)MolybdenuM(III) |
| Appearance | Light orange solid |
| Molecular Weight | 418.61616 |
| Purity | ≧ 98% |
| Package Information | 100g, 500g, 12kg or customized |
The molybdenum(III) center possesses certain coordination unsaturation and reactivity, and can be further synthesized into other molybdenum complexes through reactions such as ligand substitution. It also exhibits good catalytic potential in activated carbon hydrogen bonding and olefin systems.
The tetrahydrofuran (THF) coordinating group in the molecule gives C12H24Cl3MoO3 good solubility in common organic solvents, making it easy to use in homogeneous reaction systems.
Trichlorotris(tetrahydrofuran)molybdenum(III) exhibits excellent performance in olefin polymerization, alkylation, and hydrogenation reactions, providing a stable catalytic environment and high conversion efficiency.
As a compound with a well-defined structure, its purity (usually not less than 95%) and composition are guaranteed, which is beneficial for scientific research and catalytic applications that require reproducibility.
Trichlorotris(tetrahydrofuran)molybdenum(III) can be used as a catalyst or catalyst precursor to promote a variety of organic synthesis reactions and develop novel catalytic systems. It has application potential in the laboratory synthesis and industrial production of chemical, pharmaceutical intermediates and fine chemicals.
This compound is an important model substance for studying the chemical behavior and homogeneous catalysis mechanism of molybdenum. It can also serve as a key precursor for the synthesis of other molybdenum complexes or materials.
Based on its metallic properties and tunable coordination environment, it also plays a role in the development of novel functional materials, such as specific metal-organic frameworks or heterogeneous catalysts.
Trichlorotris(tetrahydrofuran)molybdenum(III) is sensitive to both air and humidity. It must be stored and handled in a dry environment, and all operations must be carried out under the protection of an inert gas.
Heating will cause it to decompose and produce corrosive gases; therefore, the recommended temperature should be avoided.
Skin or eye contact may cause irritation or corrosion; protective gloves, goggles, or work clothes should be worn.
If spilled on the work surface, it should be treated with a dry, inert absorbent material (such as SiO2), and water should be avoided.
This product is for professional laboratory research use only. Non-professionals should not handle it. Disposal should comply with relevant regulations to avoid environmental pollution.
1. What are the main uses of trichlorotris(tetrahydrofuran)molybdenum(III)?
It is mainly used as a homogeneous catalyst or catalyst precursor, and has important applications in organic synthesis, chemical research, and materials science.
2. What is the typical purity of this compound?
Commercially available trichlorotris(tetrahydrofuran)molybdenum(III) typically has a purity of at least 95%. For specific purity information, please refer to the product manual.
3. Does it require a co-catalyst when used in olefin polymerization?
It usually requires the use of methylaluminoxane (MAO) or Lewis acid co-catalysts. The specific system needs to be optimized based on the reaction system.
Wolfa professionally supplies Trichlorotris(Tetrahydrofuran)Molybdenum(iii), supporting small-batch sampling and large-volume procurement needs. Packaging options include ordinary glass bottles, glass ampoules, metal ampoules, etc.
For product analysis reports (such as COA) or procurement consulting, please feel free to contact us at jomin@wolfabio.com at any time.
