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W4385830503 endingPage "124827" @default.
W4385830503 startingPage "124827" @default.
W4385830503 abstract "In our ongoing campaign, we are attempting to address the inferior stability of CuO oxygen carrier because it has exceptional reactivity in the chemical looping field ascribed to its oxygen uncoupling feature. In our previous work, impregnation method employed to synthesize CuO on novel double supports with strong anti-sintering (MgO) and high-crushing strength (TiO2) materials. Outstanding reactivity and sintering resistance were reported over 10 TGA cycles, while TiO2 recorded a weak XRD peak and Cu2MgO3 formed. This study has investigated impregnating Cu precursor on TiO2, followed by impregnating Mg precursor, for further modifications. The effect of partial replacement of MgO by ZrO2 was also investigated. The stability has been investigated over 21 cycles in a batch fluidized bed and materials characterized by XRD, XRF, SEM-EDS, and XPS techniques. Strong interaction between MgO and TiO2 has been identified, producing undesired MgTiO3 and MgTi2O5; however, impregnating Cu over TiO2 first significantly inhibited this phenomenon; recorded better stability. Replacement of MgO by ZrO2 also remarkably reduced MgO-TiO2 interaction and showed the highest XRD peak of desired (TiO2) rutile. SEM proved high sintering resistance for all samples throughout cycling, with slight grain growth. A sample with two impregnation steps and ZrO2 addition reported the best overall stability and the highest oxygen vacancies (XPS). Cu2MgO3 was detected in all samples, more clearly after cycles; however, it did not detect by XRD of reduced samples, suggesting it dissociates in inert condition and eventually did not reduces oxygen uncoupling capacity." @default.
W4385830503 created "2023-08-16" @default.
W4385830503 creator A5010709242 @default.
W4385830503 creator A5016169486 @default.
W4385830503 creator A5016919511 @default.
W4385830503 creator A5047097542 @default.
W4385830503 creator A5057092650 @default.
W4385830503 creator A5082531403 @default.
W4385830503 date "2023-12-01" @default.
W4385830503 modified "2023-10-17" @default.
W4385830503 title "Optimizing oxygen uncoupling performance and stability of novel MgO/TiO2 supported CuO oxygen carrier: Effect of impregnation steps and ZrO2 addition" @default.
W4385830503 cites W1581915606 @default.
W4385830503 cites W1786499117 @default.
W4385830503 cites W1870365070 @default.
W4385830503 cites W1979082225 @default.
W4385830503 cites W2016721948 @default.
W4385830503 cites W2017079702 @default.
W4385830503 cites W2020904785 @default.
W4385830503 cites W2024617749 @default.
W4385830503 cites W2027862064 @default.
W4385830503 cites W2028423395 @default.
W4385830503 cites W2030198306 @default.
W4385830503 cites W2030904566 @default.
W4385830503 cites W2041117872 @default.
W4385830503 cites W2065486200 @default.
W4385830503 cites W2066906730 @default.
W4385830503 cites W2069749425 @default.
W4385830503 cites W2112715182 @default.
W4385830503 cites W2219609659 @default.
W4385830503 cites W2287346277 @default.
W4385830503 cites W2294539298 @default.
W4385830503 cites W229865425 @default.
W4385830503 cites W2317899542 @default.
W4385830503 cites W2331660540 @default.
W4385830503 cites W2332656396 @default.
W4385830503 cites W2353343805 @default.
W4385830503 cites W2469447844 @default.
W4385830503 cites W2524707451 @default.
W4385830503 cites W2534529592 @default.
W4385830503 cites W2562743362 @default.
W4385830503 cites W2598749709 @default.
W4385830503 cites W2615333633 @default.
W4385830503 cites W2740580228 @default.
W4385830503 cites W2754449592 @default.
W4385830503 cites W2766831406 @default.
W4385830503 cites W2787807474 @default.
W4385830503 cites W2793326605 @default.
W4385830503 cites W2805421431 @default.
W4385830503 cites W2808587993 @default.
W4385830503 cites W2897779256 @default.
W4385830503 cites W2899119107 @default.
W4385830503 cites W2899642860 @default.
W4385830503 cites W2901392305 @default.
W4385830503 cites W2912671740 @default.
W4385830503 cites W2937295527 @default.
W4385830503 cites W2945507546 @default.
W4385830503 cites W2946475298 @default.
W4385830503 cites W2948072684 @default.
W4385830503 cites W2961441461 @default.
W4385830503 cites W2964857412 @default.
W4385830503 cites W2971913339 @default.
W4385830503 cites W3000161339 @default.
W4385830503 cites W3001372852 @default.
W4385830503 cites W3009983858 @default.
W4385830503 cites W3011372835 @default.
W4385830503 cites W3035561373 @default.
W4385830503 cites W3081622635 @default.
W4385830503 cites W3094808435 @default.
W4385830503 cites W3103828670 @default.
W4385830503 cites W3134469423 @default.
W4385830503 cites W3137409053 @default.
W4385830503 cites W3155735850 @default.
W4385830503 cites W3156585172 @default.
W4385830503 cites W3163626518 @default.
W4385830503 cites W3174793053 @default.
W4385830503 cites W3186850616 @default.
W4385830503 cites W3204456652 @default.
W4385830503 cites W4200174186 @default.
W4385830503 cites W4206664071 @default.
W4385830503 cites W4207049780 @default.
W4385830503 cites W4210842283 @default.
W4385830503 cites W4220742653 @default.
W4385830503 cites W4221053190 @default.
W4385830503 cites W4224435119 @default.
W4385830503 cites W4225692463 @default.
W4385830503 cites W4281954125 @default.
W4385830503 cites W4287385040 @default.
W4385830503 cites W4287447884 @default.
W4385830503 cites W4291002472 @default.
W4385830503 cites W4296242342 @default.
W4385830503 cites W4306882905 @default.
W4385830503 cites W4307818740 @default.
W4385830503 cites W4308039705 @default.
W4385830503 cites W4309770609 @default.
W4385830503 cites W4313420354 @default.
W4385830503 cites W4321014799 @default.
W4385830503 cites W992581252 @default.
W4385830503 doi "https://doi.org/10.1016/j.seppur.2023.124827" @default.