Exploring the Properties and Applications of Tetrakis(4-tetrazolylphenyl)ethylene
Understanding the fundamental properties of chemical compounds is essential for their effective application in research and industry. Tetrakis(4-tetrazolylphenyl)ethylene, identified by CAS number 1818888-42-4, is a complex organic molecule with a distinct set of characteristics that make it valuable in specialized chemical fields, particularly in the synthesis of Metal-Organic Frameworks (MOFs).
The chemical formula C30H20N16 accurately describes its molecular composition. Physically, it is typically stored sealed in dry conditions at room temperature to maintain its integrity. Its solubility profile indicates it dissolves well in polar aprotic solvents such as Dimethylformamide (DMF) and Dimethyl sulfoxide (DMSO), which are commonly used in organic synthesis and MOF preparation. Predicted physical data, such as a density of approximately 1.516 g/cm³ and a high boiling point of around 912.9 °C, further define its behavior and handling requirements.
The primary application highlighted for Tetrakis(4-tetrazolylphenyl)ethylene is its role as a monomer linker in MOF synthesis. Its rigid structure and the presence of multiple tetrazole groups facilitate the formation of porous frameworks when coordinated with metal ions. This property is critical for developing MOFs with specific pore sizes and chemical environments, essential for applications like selective gas adsorption and catalysis. For instance, its use in structures like FJU-44 demonstrates its capability to build complex, highly ordered porous materials.
Beyond its established role in MOF chemistry, the compound's structural features suggest potential in other areas of material science and organic synthesis. The tetrazole rings can participate in various chemical reactions, making it a versatile building block for more complex organic molecules or functional materials. When considering the purchase of Tetrakis(4-tetrazolylphenyl)ethylene, understanding these properties ensures that it aligns with your specific application needs.
As a supplier in China, we provide this high-quality intermediate, backed by meticulous quality control. Whether you are exploring advanced MOF synthesis or seeking unique organic building blocks for novel material development, Tetrakis(4-tetrazolylphenyl)ethylene offers significant potential. We are committed to making this advanced chemical accessible to researchers worldwide.
The chemical formula C30H20N16 accurately describes its molecular composition. Physically, it is typically stored sealed in dry conditions at room temperature to maintain its integrity. Its solubility profile indicates it dissolves well in polar aprotic solvents such as Dimethylformamide (DMF) and Dimethyl sulfoxide (DMSO), which are commonly used in organic synthesis and MOF preparation. Predicted physical data, such as a density of approximately 1.516 g/cm³ and a high boiling point of around 912.9 °C, further define its behavior and handling requirements.
The primary application highlighted for Tetrakis(4-tetrazolylphenyl)ethylene is its role as a monomer linker in MOF synthesis. Its rigid structure and the presence of multiple tetrazole groups facilitate the formation of porous frameworks when coordinated with metal ions. This property is critical for developing MOFs with specific pore sizes and chemical environments, essential for applications like selective gas adsorption and catalysis. For instance, its use in structures like FJU-44 demonstrates its capability to build complex, highly ordered porous materials.
Beyond its established role in MOF chemistry, the compound's structural features suggest potential in other areas of material science and organic synthesis. The tetrazole rings can participate in various chemical reactions, making it a versatile building block for more complex organic molecules or functional materials. When considering the purchase of Tetrakis(4-tetrazolylphenyl)ethylene, understanding these properties ensures that it aligns with your specific application needs.
As a supplier in China, we provide this high-quality intermediate, backed by meticulous quality control. Whether you are exploring advanced MOF synthesis or seeking unique organic building blocks for novel material development, Tetrakis(4-tetrazolylphenyl)ethylene offers significant potential. We are committed to making this advanced chemical accessible to researchers worldwide.
Perspectives & Insights
Core Pioneer 24
“This property is critical for developing MOFs with specific pore sizes and chemical environments, essential for applications like selective gas adsorption and catalysis.”
Silicon Explorer X
“For instance, its use in structures like FJU-44 demonstrates its capability to build complex, highly ordered porous materials.”
Quantum Catalyst AI
“Beyond its established role in MOF chemistry, the compound's structural features suggest potential in other areas of material science and organic synthesis.”