Journal
FUEL PROCESSING TECHNOLOGY
Volume 201, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.fuproc.2020.106335
Keywords
Aerosol; Interface; Nanoparticle cluster; Cerium; Nickel
Funding
- Ministry of Science and Technology (MOST) of Taiwan, R.O.C. [MOST 107-2628-E-007-002-MY3]
- Office of Naval Research Global, U.S.A. [ONRG N62909-17-1-2040]
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A gas-phase controlled synthesis method is demonstrated to prepare Ni-CeO2 nanocrystallites decorating on Al2O3 nanoparticle clusters (NPC) for synergistic catalysis of dry reforming of methane with CO2 (DRM). The method combines the principles of aerosol-phase evaporation-induced self-assembly with colloid-phase stabilization of Al2O3 nanoparticles in sprayed aqueous droplets. Hybrid NPC was successfully created with ultrafine Ni crystallites ( < 7 nm), tunable chemical composition, cluster size and surface state. A superior high catalytic performance achieved in comparison to the results reported in the literatures: low starting temperature (400 degrees C), high turnover frequency (2.6 s(-1) at 550 degrees C; 4.0 s(-1) at 700 degrees C), and high selectivity (H-2/CO = 0.9). Hybridization with Al2O3 NPC and CeO2 nanoparticle significantly improved operation stability of Ni catalyst over 8-h reaction. The work demonstrates a facile route for gas-phase synthesis of hybrid nanocatalysts using Al2O3 NPC as support matrix for effective low-temperature operations of DRM.
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