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Definition of Al2(C2O4)3
Al2(C2O4)3, commonly known as Oxalate aluminum, is also called Aluminum oxalate in English. It is an inorganic compound consisting of aluminum atoms and oxalate ions C2O4(2-). Each Al2(C2O4)3 molecule contains 2 aluminum atoms and 3 oxalate ions. The molar mass of Al2(C2O4)3 is 318.014 g/mol. -
Properties of Al2(C2O4)3
Physical properties: Al2(C2O4)3 is a white, odorless powder, insoluble in water, with a neutral pH. Chemical properties: Al2(C2O4)3 is very chemically resistant, it is not soluble in water and does not react with strong oxidizing agents. -
Chemical equation of Al2(C2O4)3: There is no specific information about the chemical reactions of Al2(C2O4)3. Generally, Al2(C2O4)3 is quite stable and hard to react.
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Synthesis of Al2(C2O4)3: Currently, there is no specific information about the synthesis process of Al2(C2O4)3 in the laboratory or industry. However, it could be synthesized from oxalate and aluminum in an acidic environment.