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A core-shell structured Fe2O3/ZrO2@ZrO2 nanomaterial with enhanced redox activity and stability for CO2 conversion

Jiawei Hu (UGent) , Vladimir Galvita (UGent) , Hilde Poelman (UGent) , Christophe Detavernier (UGent) and Guy Marin (UGent)
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Keywords
Core-shell structured material, Iron oxide, Oxygen storage materials, CO2 conversion, Chemical looping, CHEMICAL-LOOPING COMBUSTION, OXYGEN CARRIER, CARBON-DIOXIDE, HYDROGEN-PRODUCTION, PURE HYDROGEN, IRON-OXIDE, CAPTURE, REDUCTION, FE2O3, BEHAVIOR

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Chicago
Hu, Jiawei, Vladimir Galvita, Hilde Poelman, Christophe Detavernier, and Guy Marin. 2017. “A Core-shell Structured Fe2O3/ZrO2@ZrO2 Nanomaterial with Enhanced Redox Activity and Stability for CO2 Conversion.” JOURNAL OF CO2 UTILIZATION  17: 20–31.
APA
Hu, Jiawei, Galvita, V., Poelman, H., Detavernier, C., & Marin, G. (2017). A core-shell structured Fe2O3/ZrO2@ZrO2 nanomaterial with enhanced redox activity and stability for CO2 conversion. JOURNAL OF CO2 UTILIZATION  , 17, 20–31.
Vancouver
1.
Hu J, Galvita V, Poelman H, Detavernier C, Marin G. A core-shell structured Fe2O3/ZrO2@ZrO2 nanomaterial with enhanced redox activity and stability for CO2 conversion. JOURNAL OF CO2 UTILIZATION  . 2017;17:20–31.
MLA
Hu, Jiawei, Vladimir Galvita, Hilde Poelman, et al. “A Core-shell Structured Fe2O3/ZrO2@ZrO2 Nanomaterial with Enhanced Redox Activity and Stability for CO2 Conversion.” JOURNAL OF CO2 UTILIZATION  17 (2017): 20–31. Print.
@article{8509804,
  author       = {Hu, Jiawei and Galvita, Vladimir and Poelman, Hilde and Detavernier, Christophe and Marin, Guy},
  issn         = {2212-9820},
  journal      = {JOURNAL OF CO2 UTILIZATION                                },
  keyword      = {Core-shell structured material,Iron oxide,Oxygen storage materials,CO2 conversion,Chemical looping,CHEMICAL-LOOPING COMBUSTION,OXYGEN CARRIER,CARBON-DIOXIDE,HYDROGEN-PRODUCTION,PURE HYDROGEN,IRON-OXIDE,CAPTURE,REDUCTION,FE2O3,BEHAVIOR},
  language     = {eng},
  pages        = {20--31},
  title        = {A core-shell structured Fe2O3/ZrO2@ZrO2 nanomaterial with enhanced redox activity and stability for CO2 conversion},
  url          = {http://dx.doi.org/10.1016/j.jcou.2016.11.003},
  volume       = {17},
  year         = {2017},
}

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