Reforming of methane with carbon dioxide over cerium oxide promoted nickel nanoparticles deposited on 4-channel hollow fibers by atomic layer deposition

Baitang Jin; Zeyu Shang; Shiguang Li; Ying Bing Jiang; Xuehong Gu; Xinhua Liang

doi:10.1039/d0cy00039f

Reforming of methane with carbon dioxide over cerium oxide promoted nickel nanoparticles deposited on 4-channel hollow fibers by atomic layer deposition

Baitang Jin, Zeyu Shang, Shiguang Li, Ying Bing Jiang, Xuehong Gu, Xinhua Liang

化工学院

科研成果: 期刊稿件 › 文章 › 同行评审

28 引用（Scopus）

摘要

Ni nanoparticles were deposited on four-channel structured α-Al₂O₃hollow fibers by atomic layer deposition (ALD). CeO₂was loaded by a liquid phase incipient wetness method to promote Ni catalysts for dry reforming of methane. For Ni/Al₂O₃prepared by ALD, inactive NiAl₂O₄that originated from the Ni ALD process was incompletely reduced. The introduced CeO₂was found to weaken the NiO-Al₂O₃interaction, free NiO from NiO-Al₂O₃or NiAl₂O₄, and improve the reducibility of NiO. The higher reducibility of NiAl₂O₄, tuned by CeO₂, further activated the catalyst during DRM, because a larger proportion of NiAl₂O₄was gradually reduced to metallic nickel by the reaction products. The optimal catalytic performance reached a methane reforming rate of 2410 L h⁻¹g_Ni⁻¹at 850 °C. The CeO₂promoted catalyst also exhibited an excellent performance after regeneration.

源语言	英语
页（从-至）	3212-3222
页数	11
期刊	Catalysis Science and Technology
卷	10
期	10
DOI	https://doi.org/10.1039/d0cy00039f
出版状态	已出版 - 21 5月 2020

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title = "Reforming of methane with carbon dioxide over cerium oxide promoted nickel nanoparticles deposited on 4-channel hollow fibers by atomic layer deposition",

abstract = "Ni nanoparticles were deposited on four-channel structured α-Al2O3hollow fibers by atomic layer deposition (ALD). CeO2was loaded by a liquid phase incipient wetness method to promote Ni catalysts for dry reforming of methane. For Ni/Al2O3prepared by ALD, inactive NiAl2O4that originated from the Ni ALD process was incompletely reduced. The introduced CeO2was found to weaken the NiO-Al2O3interaction, free NiO from NiO-Al2O3or NiAl2O4, and improve the reducibility of NiO. The higher reducibility of NiAl2O4, tuned by CeO2, further activated the catalyst during DRM, because a larger proportion of NiAl2O4was gradually reduced to metallic nickel by the reaction products. The optimal catalytic performance reached a methane reforming rate of 2410 L h−1gNi−1at 850 °C. The CeO2promoted catalyst also exhibited an excellent performance after regeneration.",

author = "Baitang Jin and Zeyu Shang and Shiguang Li and Jiang, {Ying Bing} and Xuehong Gu and Xinhua Liang",

note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry 2020.",

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T1 - Reforming of methane with carbon dioxide over cerium oxide promoted nickel nanoparticles deposited on 4-channel hollow fibers by atomic layer deposition

AU - Jin, Baitang

AU - Shang, Zeyu

AU - Li, Shiguang

AU - Jiang, Ying Bing

AU - Gu, Xuehong

AU - Liang, Xinhua

PY - 2020/5/21

Y1 - 2020/5/21

N2 - Ni nanoparticles were deposited on four-channel structured α-Al2O3hollow fibers by atomic layer deposition (ALD). CeO2was loaded by a liquid phase incipient wetness method to promote Ni catalysts for dry reforming of methane. For Ni/Al2O3prepared by ALD, inactive NiAl2O4that originated from the Ni ALD process was incompletely reduced. The introduced CeO2was found to weaken the NiO-Al2O3interaction, free NiO from NiO-Al2O3or NiAl2O4, and improve the reducibility of NiO. The higher reducibility of NiAl2O4, tuned by CeO2, further activated the catalyst during DRM, because a larger proportion of NiAl2O4was gradually reduced to metallic nickel by the reaction products. The optimal catalytic performance reached a methane reforming rate of 2410 L h−1gNi−1at 850 °C. The CeO2promoted catalyst also exhibited an excellent performance after regeneration.

AB - Ni nanoparticles were deposited on four-channel structured α-Al2O3hollow fibers by atomic layer deposition (ALD). CeO2was loaded by a liquid phase incipient wetness method to promote Ni catalysts for dry reforming of methane. For Ni/Al2O3prepared by ALD, inactive NiAl2O4that originated from the Ni ALD process was incompletely reduced. The introduced CeO2was found to weaken the NiO-Al2O3interaction, free NiO from NiO-Al2O3or NiAl2O4, and improve the reducibility of NiO. The higher reducibility of NiAl2O4, tuned by CeO2, further activated the catalyst during DRM, because a larger proportion of NiAl2O4was gradually reduced to metallic nickel by the reaction products. The optimal catalytic performance reached a methane reforming rate of 2410 L h−1gNi−1at 850 °C. The CeO2promoted catalyst also exhibited an excellent performance after regeneration.

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SN - 2044-4753

VL - 10

SP - 3212

EP - 3222

JO - Catalysis Science and Technology

JF - Catalysis Science and Technology

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ER -

Reforming of methane with carbon dioxide over cerium oxide promoted nickel nanoparticles deposited on 4-channel hollow fibers by atomic layer deposition

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