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| Synonyms | TRIAMMINEMOLYBDENUM(0) TRICARBONYL |
| Molecular Formula | C3H6MoN3O3 |
| Molecular Weight | 228.05 |
| Melting Point | 220-225 °C(lit.) |
| Purity | ≧ 98% |
| Package Information | 100g, 500g, 1kg, or customized |
Triamminemolybde-Num Tricarbonyl exhibits typical Mo–CO and Mo–NH3 coordination modes, making it an important model compound for studying the electronic structure and ligand effects of the molybdenum center, facilitating comparative analysis of theoretical and experimental results.
This compound can undergo ligand substitution or rearrangement reactions under controlled conditions, and is often used to explore the exchange behavior between amine ligands and other neutral or weakly coordinating ligands, making it suitable for mechanistic studies and methodological exploration.
This product is typically used in the small-scale testing or mechanism research stages at universities, research institutes, and corporate R&D departments, rather than for industrial-scale applications. This helps ensure the professionalism and controllability of experimental results.
Triamminemolybde-Num Tricarbonyl is frequently used in the structural study and reaction pathway analysis of molybdenum-based organometallic complexes, and is an important subject of research for understanding metal-ligand interactions.
Due to its simultaneous inclusion of carbonyl and amine ligands, this compound can be used to study the influence of different ligands on the electronic properties of the metal center, often analyzed in conjunction with spectroscopic techniques (such as IR and NMR).
In some studies of molybdenum-based catalytic systems, (NH3)3Mo(CO)3 can be used as a precursor or model compound to explore the formation process of catalytically active species.
This product is also frequently used in teaching experiments or for validating research methods, helping researchers understand the reaction characteristics and stability principles of transition metal carbonyl complexes.
Triamminemolybdenum tricarbonyl is quite sensitive to moisture; prolonged exposure may lead to ligand changes. It should be protected from moisture and prolonged contact with air. Handling in a dry, inert atmosphere is recommended.
Under high-temperature conditions, this compound may decompose or undergo decarbonylation, affecting its chemical composition and the reliability of experimental results.
During operation, protective equipment such as protective gloves, safety glasses, and lab coats should be worn properly to avoid direct skin contact or inhalation of dust.
If contact with skin or eyes occurs, immediately rinse thoroughly with plenty of water. In case of severe symptoms, seek medical attention promptly.
This product is for research and industrial development purposes only and is not suitable for pharmaceutical, food, or any direct consumer applications.
1. What type of compound is Triamminemolybdenum Tricarbonyl?
It is a molybdenum-based organometallic complex with the chemical formula (NH3)3Mo(CO)3, molecular formula C3H6MoN3O3, and a melting point of 220-225 °C (lit.). It contains both ammonia ligands and carbonyl ligands.
2. In which research areas is (NH3)3Mo(CO)3 commonly used?
It is mainly used in organometallic chemistry, coordination chemistry, studies of molybdenum-based catalytic mechanisms, and the construction of related model systems.
3. Is this compound suitable for industrial-scale production?
No. Triamminemolybdenum tricarbonyl is primarily suitable for small-scale experiments or mechanistic studies in research and development phases.
4. Do the products come with MSDS and COA?
Relevant MSDS, safety data, and quality documents can be provided upon request for laboratory compliance and safety assessment.
Wolfa professionally supplies Triamminemolybde-Num Tricarbonyl, 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 | TRIAMMINEMOLYBDENUM(0) TRICARBONYL |
| Molecular Formula | C3H6MoN3O3 |
| Molecular Weight | 228.05 |
| Melting Point | 220-225 °C(lit.) |
| Purity | ≧ 98% |
| Package Information | 100g, 500g, 1kg, or customized |
Triamminemolybde-Num Tricarbonyl exhibits typical Mo–CO and Mo–NH3 coordination modes, making it an important model compound for studying the electronic structure and ligand effects of the molybdenum center, facilitating comparative analysis of theoretical and experimental results.
This compound can undergo ligand substitution or rearrangement reactions under controlled conditions, and is often used to explore the exchange behavior between amine ligands and other neutral or weakly coordinating ligands, making it suitable for mechanistic studies and methodological exploration.
This product is typically used in the small-scale testing or mechanism research stages at universities, research institutes, and corporate R&D departments, rather than for industrial-scale applications. This helps ensure the professionalism and controllability of experimental results.
Triamminemolybde-Num Tricarbonyl is frequently used in the structural study and reaction pathway analysis of molybdenum-based organometallic complexes, and is an important subject of research for understanding metal-ligand interactions.
Due to its simultaneous inclusion of carbonyl and amine ligands, this compound can be used to study the influence of different ligands on the electronic properties of the metal center, often analyzed in conjunction with spectroscopic techniques (such as IR and NMR).
In some studies of molybdenum-based catalytic systems, (NH3)3Mo(CO)3 can be used as a precursor or model compound to explore the formation process of catalytically active species.
This product is also frequently used in teaching experiments or for validating research methods, helping researchers understand the reaction characteristics and stability principles of transition metal carbonyl complexes.
Triamminemolybdenum tricarbonyl is quite sensitive to moisture; prolonged exposure may lead to ligand changes. It should be protected from moisture and prolonged contact with air. Handling in a dry, inert atmosphere is recommended.
Under high-temperature conditions, this compound may decompose or undergo decarbonylation, affecting its chemical composition and the reliability of experimental results.
During operation, protective equipment such as protective gloves, safety glasses, and lab coats should be worn properly to avoid direct skin contact or inhalation of dust.
If contact with skin or eyes occurs, immediately rinse thoroughly with plenty of water. In case of severe symptoms, seek medical attention promptly.
This product is for research and industrial development purposes only and is not suitable for pharmaceutical, food, or any direct consumer applications.
1. What type of compound is Triamminemolybdenum Tricarbonyl?
It is a molybdenum-based organometallic complex with the chemical formula (NH3)3Mo(CO)3, molecular formula C3H6MoN3O3, and a melting point of 220-225 °C (lit.). It contains both ammonia ligands and carbonyl ligands.
2. In which research areas is (NH3)3Mo(CO)3 commonly used?
It is mainly used in organometallic chemistry, coordination chemistry, studies of molybdenum-based catalytic mechanisms, and the construction of related model systems.
3. Is this compound suitable for industrial-scale production?
No. Triamminemolybdenum tricarbonyl is primarily suitable for small-scale experiments or mechanistic studies in research and development phases.
4. Do the products come with MSDS and COA?
Relevant MSDS, safety data, and quality documents can be provided upon request for laboratory compliance and safety assessment.
Wolfa professionally supplies Triamminemolybde-Num Tricarbonyl, 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.
