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- W3201185882 abstract "Dry reforming of methane (DRM) is an important reaction for converting CO2 into synthesis gas (H2 + CO). Though Ni is one of the most promising catalysts, the agglomeration of Ni particles and the formation of coke on the catalyst proceed during DRM, resulting in rapid catalyst deactivation. Therefore, the development of Ni-based catalysts that exhibit high thermal stability and suppress coke formation is indispensable. The encapsulation structure of Ni nanoparticles in porous supports is reported to be effective for high DRM activities and the suppression of coke formation. Herein, we synthesized a Silicalite-1-encapsulated Ni catalyst ([email protected]) for DRM using amorphous silica-encapsulated Ni-oxide nanoparticles (NiOx@SiO2) as the Ni precursor, and the effect of physicochemical properties on DRM activities was investigated using [email protected], [email protected]2 (NiOx@SiO2 after H2 reduction), and Ni/Silicalite-1 (impregnation). For [email protected], Ni phyllosilicate was formed inside Silicalite-1 during the hydrothermal synthesis, and the encapsulation structure of 4.5-nm-sized Ni particles was realized by reducing Ni phyllosilicate to Ni particles inside the zeolite. Because the small Ni particles were stabilized in the porous supports, [email protected] and [email protected]2 exhibited high and stable activity for DRM at 600 °C with negligible coke formation (6.6 and 8.2 mg-C/g-catalyst for [email protected] and [email protected]2 respectively), whereas a large amount of coke was formed on Ni/Silicalite-1 (532 mg-C/g-catalyst). [email protected] exhibited high and stable DRM activity throughout 24 h at 600 °C and GHSV = 108000 mL/(g-cat·h). Moreover, because Silicalite1 possessed high thermal stability, the high activity of [email protected] was maintained throughout the 5 h of DRM at 850 °C, whereas the activity of [email protected]2 decreased because of the collapse of the pore structure of SiO2. [email protected] exhibited a higher conversion rate of methane (13.3 mol-CH4/(g-Ni·min) at 850 °C and GHSV = 1080000 mL/(g-cat·h)) than previously reported Ni-based catalysts." @default.
- W3201185882 created "2021-09-27" @default.
- W3201185882 creator A5042450815 @default.
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- W3201185882 date "2021-11-01" @default.
- W3201185882 modified "2023-10-10" @default.
- W3201185882 title "Development of Silicalite-1-encapsulated Ni nanoparticle catalyst from amorphous silica-coated Ni for dry reforming of methane: Achieving coke formation suppression and high thermal stability" @default.
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- W3201185882 doi "https://doi.org/10.1016/j.jcou.2021.101707" @default.
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