关键词: 前躯体, 　C3N4/AC, 　1,2?二氯乙烷, 　催化热裂解

Abstract: The C3N4/AC catalyst was prepared by using the same nitrogen content of cyanamide,thiourea,urea as precursor and activated carbon as the carrier. The reaction performance of C3N4/AC catalyst for the catalytic pyrolysis of 1,2⁃dichloroethane was evaluated by using fixed bed reactor,and the properties of catalyst structure were characterized by SEM,XRD,BET,XPS and TGA. The results showed that the initial activity and selectivity of the catalyst prepared from 0.110 mol precursor were close to 100%,but the stability of the catalyst was different obviously. The catalyst synthesized with urea as precursor had the highest catalyst stability compared with the other two precursors. However,the catalysts synthesized by using low loading of precursors showed differences on the catalytic performance. The structure and morphology of the catalysts with low loading of precursor were investigated. The results showed that when the load was reduced to 0.057 mol,the C3N4/AC catalyst prepared with urea had the highest catalytic activity for dehydrochlorination of 1,2⁃dichloroethane and the best stability.The different morphologies of carbon nitride was synthesized by different precursors. The carbon nitride productivity of thiourea and cyanamide is higher than urea but is more easily to form bulk carbon nitride which will result in poor stability. After all,urea is the optimal precursor for the C3N4/AC catalyst for dehydrochlorination of 1,2⁃dichloroethane.

Key words: Precursor, C3N4/AC, 1,2?Dichloroethane, Catalytic pyrolysis