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Definition of Cu3(PO3)2
Cu3(PO3)2, also known as Copper (II) Phosphite, is a chemical compound formed from three Copper (Cu) atoms, two Phosphorus (P) atoms, and six Oxygen (O) atoms. Therefore, its molecular weight is 380.58 g/mol. In this compound, Copper shares electrons with Phosphorus and Oxygen to form Cu2+ and PO3- ions, linked together by ionic bonds. -
Properties of Cu3(PO3)2
2.1 Physical properties of Cu3(PO3)2
Cu3(PO3)2 is a solid substance, green in color and has no particular smell.
2.2 Chemical properties of Cu3(PO3)2
Cu3(PO3)2 can react with acids to form salts and water. It can also react with metals to form other salts and hydrogen. -
Common chemical equations involving Cu3(PO3)2
3.1 Metal reaction
Cu3(PO3)2 + 2Al -> 3Cu + 2AlPO4
3.2 Acid reaction
Cu3(PO3)2 + 6HNO3 -> 3Cu(NO3)2 + 2H3PO3 -
Synthesis of Cu3(PO3)2
4.1 Laboratory synthesis of Cu3(PO3)2
Cu3(PO3)2 can be synthesized through the reaction between Copper and Phosphorus under high temperature conditions. Specifically:
6Cu + P4O10 -> 2Cu3(PO3)2
4.2 Industrial synthesis of Cu3(PO3)2
Currently, Cu3(PO3)2 is mainly produced from the extraction of Copper ores containing Phosphorus, which then go through various refining processes to form this compound.