Selected Papers:
1. Dewang Zeng, Yu Qiu, Min Li, Li Ma, Dongxu Cui, Shuai Zhang, Rui Xiao*. Spatially controlled oxygen storage materials improved the syngas selectivity on chemical looping methane conversion. Applied Catalysis B: Environmental, 2021,281,119472. (IF:24.318)
2. Dewang Zeng, Yu Qiu, Song Peng, Chao Chen, Jimin Zeng, Shuai Zhang, Rui Xiao*. Enhanced hydrogen production performance through controllable redox exsolution within CoFeAlOx spinel oxygen carrier materials. Journal of Materials Chemistry A, 2018,6(24),11306-16. (IF:14.510)
3. Dewang Zeng, Fengwen Kang, Yu Qiu, Dongxu Cui, Min Li, Li Ma, Shuai Zhang, Rui Xiao*. Iron oxides with gadolinium-doped cerium oxides as active supports for chemical looping hydrogen production. Chemical Engineering Journal, 2020,396,125153. (IF:16.734)
4. Dewang Zeng, Yu Qiu, Min Li, Dongxu Cui, Li Ma, Yulin Lv, Shuai Zhang, Rui Xiao*. Ternary Mixed Spinel Oxides as Oxygen Carriers for Chemical Looping Hydrogen Production Operating at 550 °C. ACS Applied Materials & Interfaces, 2019,11(47),44223-32.(IF:10.383)
5. Dewang Zeng, Y Li, Z Zhang, C Luo, T Liu, Q Kong, R Xiao*.Bulk oxygen conduction kinetics of iron oxides on the chemical looping combustion[J]. Fuel Processing Technology, 2022, 237: 107442. (IF:8.129)
6. Dewang Zeng, Chen Wang, Tong Liu, Wentao Ou, Rui Xiao*. Enhanced performance of chemical looping methane oxidative coupling by the synergistic effect of TiO2 doped Na2WO4/Mn2O3/SiO2 oxygen carriers[J]. Fuel Processing Technology, 2022, 234: 107320. (IF:8.129)
7. Dewang Zeng, Yu Qiu, Li Ma, Min Li, Dongxu Cui, Shuai Zhang, Rui Xiao*. Tuning the Support Properties toward Higher CO2 Conversion during a Chemical Looping Scheme. Environmental Science & Technology, 2020,54(19),12467-75. (IF:11.558)
8. Dewang Zeng, Dongxu Cui, Yu Qiu, Min Li, Li Ma, Shuai Zhang, Rui Xiao*. Mn-Fe-Al-O mixed spinel oxides as oxygen carrier for chemical looping hydrogen production with CO2 capture. Fuel, 2020,274,117854. (IF:8.034)
9. Dewang Zeng, Rui Xiao*, Shuai Zhang, Hui-Yan Zhang. Bio-oil heavy fraction for hydrogen production by iron-based oxygen carrier redox cycle. Fuel Processing Technology, 2015,139,1-7. (IF:8.129)
10. Dewang Zeng, Min Li, Yu Qiu, Li Ma, Dongxu Cui, Shuai Zhang, Rui Xiao*. A high-performance ternary ferrite-spinel material for hydrogen storage via chemical looping redox cycles. International Journal of Hydrogen Energy, 2020,45(3),2034-43. (IF:7.138)
11. Dewang Zeng, Yu Qiu, Shuai Zhang, Li Ma, Min Li, Dongxu Cui, Jimin Zeng, Rui Xiao*. Synergistic effects of binary oxygen carriers during chemical looping hydrogen production. International Journal of Hydrogen Energy, 2019,44(39),21290-302. (IF:7.138)
12. Dewang Zeng, Rui Xiao*, Jimin Zeng, Huiyan Zhang. Liquid foam assisted sol–gel synthesis of iron oxides for hydrogen storage via chemical looping. International Journal of Hydrogen Energy, 2016,41(32),13923-33. (IF:7.138)
13. Dewang Zeng, Rui Xiao*, Zhicheng Huang, Jimin Zeng, Huiyan Zhang. Continuous hydrogen production from non-aqueous phase bio-oil via chemical looping redox cycles. International Journal of Hydrogen Energy, 2016,41(16),6676-84. (IF:7.138)
14. Dewang Zeng, Dongxu Cui, Yulin Lv, Yu Qiu, Min Li, Shuai Zhang, Rui Xiao*. A mixed spinel oxygen carrier with both high reduction degree and redox stability for chemical looping H2 production. International Journal of Hydrogen Energy, 2020,45(3),1444-1452. (IF:7.138)
15. Dewang Zeng, Song Peng, Chao Chen, Ji-Min Zeng, Shuai Zhang, Hui-Yan Zhang, Rui Xiao*. Nanostructured Fe2O3/MgAl2O4 material prepared by colloidal crystal templated sol–gel method for chemical looping with hydrogen storage. International Journal of Hydrogen Energy, 2016,41(48),22711-21.(IF:7.138)
16. Michael High, Clemens F. Patzschke, Liya Zheng, Dewang Zeng, Oriol Gavalda-Diaz, Nan Ding, Ka Ho Horace Chien, Zili Zhang, George E. Wilson, Andrey V. Berenov, Stephen J. Skinner, Kyra L. Sedransk Campbell, Rui Xiao*, Pual S. Fennell* & Qilei Song*. Precursor engineering of hydrotalcite-derived redox sorbents for reversible and stable thermochemical oxygen storage,Nature Communications, 2022.(IF:17.694)