- Definition of Al2Te3
Al2Te3 (Aluminium Telluride) is a colorless solid compound that belongs to the group of binary compounds consisting of two elements, aluminium (Al) and tellurium (Te). This compound has a molecular weight of 394.44 g/mol. The atomic mass of Al2Te3 consists of 2 aluminium atoms and 3 tellurium atoms. In terms of ionic structure, Al2Te3 has an ionic structure of [Al]3+ and [Te]2-.
- Properties: Al2Te3
2.1 Physical properties of Al2Te3: Al2Te3 is a colorless solid compound, with no distinctive odor. Its natural state is solid and there is no information about its pH level.
2.2 Chemical properties of Al2Te3: Al2Te3 is easily oxidized in air to form aluminium oxide and tellurium.
- Common chemical equations of Al2Te3
Currently, there is not enough information about the chemical reactions that Al2Te3 participates in.
- Synthesis of Al2Te3
4.1 Laboratory synthesis of Al2Te3: Al2Te3 can be synthesized by combining aluminium and tellurium at high temperatures.
4.2 Industrial synthesis of Al2Te3: Currently, there is no information about the industrial-scale synthesis of Al2Te3.
Note: The compound Al2Te3 is not as widespread and commonly used as other compounds of aluminium or tellurium. Therefore, information about it is quite limited.