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Definition of Ag4P2O7:
Ag4P2O7, also known as Silver pyrophosphate, is a compound of silver (Ag), phosphorus (P), and oxygen (O) with a molecular weight of 418.641 g/mol. The molecular structure of this compound consists of 4 silver atoms, 2 phosphorus atoms, and 7 oxygen atoms. In this compound, the silver ions (Ag+) and pyrophosphate ions (P2O74-) interact with each other. -
Properties of Ag4P2O7:
2.1 Physical properties of Ag4P2O7: This compound is a white or pale gray powder, without a distinctive smell. It is insoluble in water but soluble in nitric acid and ammonium hydroxide.
2.2 Chemical properties of Ag4P2O7: This compound exhibits strong oxidizing properties and can react with other substances to form silver salts. -
Common chemical equations of Ag4P2O7: Due to its strong oxidizing properties, Ag4P2O7 often participates in redox reactions. Some examples include reactions with acids, metals, or salts to form silver salts.
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Synthesis of Ag4P2O7:
4.1 Laboratory synthesis of Ag4P2O7: Ag4P2O7 is commonly synthesized by combining pyrophosphoric acid and silver nitrate in an acidic environment.
4.2 Industrial synthesis of Ag4P2O7: In industry, Ag4P2O7 is typically synthesized by extracting silver from other sources such as silver ore.