Chemical looping combustion technology has received attention as a novel combustion technology. In this paper, anhydrous citric acid was selected as the complexing agent and copper-based oxygen carriers (OCs) were prepared by the combustion synthesis method. The characteristics of NO x release during the combustion synthesis of copper-based OCs were investigated by citric acid addition. The NO release decreased significantly as the molar ratio of citric acid and Cu(NO 3 ) 2 •3H 2 O (R) increased. The peak NO concentration decreased from 100 to almost 0 ppm. The peak NO 2 concentration was maintained in the range 0−4 ppm. When R was less than 1.00, the products of copperbased OC precursor combustion were mainly NO, with very little generation of NO 2 . When R reached 1.25, only a very small amount of NO 2 was produced, and NO was negligible. The redox properties of the prepared copper-based OCs during 10 cycles were explored. The copper-based OCs all had stable redox properties in cycles. In each reduction, the peak CO 2 concentration was 3% and above. The CH 4 conversion rate and CO 2 yield were maintained at about 80% during the 10 cycles. The CO 2 selectivity was maintained at 95% and above. Among them, OC5 (R: 1.25) had the best redox capacity.