Biography
Fields of research:catalysis, nanomaterials, CO2 conversion, methane utilization
Granted Projects:
1.National Natural Science Foundation of China
2.Jiangsu Province Natural Science Foundation
3.Open fund of Chemistry Department in Qingdao University of Science and Technology
4. ChinaPostdoctoral Science Foundation
5.Senior Talents Start-Up Fund of Jiangsu University
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Location:Room 418, Chemistry and Chemical Engineering Building, Jiangsu University
Email:fagen.wang@gmail.com
Main Publications:[1-10]
[1] Han B., Wang F., Zhang L., et al. Syngas production from methane steam reforming and dry reforming reactions over sintering-resistant Ni@SiO2 catalyst. Res. Chem. Intermediat. 46 (2020) 1735-1748.
[2] Wang F., Wang Y., Zhang L., et al. Performance enhancement of methane dry reforming reaction for syngas production over Ir/Ce0.9La0.1O2-nanorods catalysts. Catal. Today (2019).
[3] Wang F., Zhang L., Deng J., et al. Embedded Ni catalysts in Ni-O-Ce solid solution for stable hydrogen production from ethanol steam reforming reaction. Fuel Process. Technol. 193 (2019) 94-101.
[4] Wang F., Han B., Zhang L., et al. CO2 Reforming with Methane over Small-Sized Ni@SiO2 Catalysts with Unique Features of Sintering-Free and Low Carbon. Appl. Catal. B: Environ. 235 (2018) 26-35.
[5] Wang F., Zhang L., Zhu J., et al. Study on different CeO2 structure stability during ethanol steam reforming reaction over Ir/CeO2 nanocatalysts. Appl. Catal. A: Gen. 564 (2018) 226-233.
[6] Wang F., Xu L., Shi W., et al. Thermally stable Ir/Ce0.9La0.1O2 catalyst for high temperature methane dry reforming reaction. Nano Res. 10 (2017) 364-380.
[7] Wang F., Xu L., Yang J., et al. Enhanced catalytic performance of Ir catalysts supported on ceria-based solid solutions for methane dry reforming reaction. Catal. Today 281 (2017) 295-303.
[8] Wang F., Zhang L., Xu L., et al. Low temperature CO oxidation and CH4 combustion over Co3O4 nanosheets. Fuel 203 (2017) 419-429.
[9] Wang F., Xu L., Shi W. Syngas Production From CO2 Reforming with Methane over Core-Shell Ni@SiO2 catalysts. J. CO2 Util. 16 (2016) 318-327.
[10] Wang F., Xu L., Zhang J., et al. Tuning the metal-support interaction in catalysts for highly efficient methane dry reforming reaction. Appl. Catal. B: Environ. 180 (2016) 511-520.