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Template-Assisted Wet-Combustion Synthesis of Fibrous Nickel-Based Catalyst for Carbon Dioxide Methanation and Methane Steam Reforming. / Aghayan, M.; Potemkin, D. I.; Rubio-Marcos, F. и др.

в: ACS Applied Materials and Interfaces, Том 9, № 50, 20.12.2017, стр. 43553-43562.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Aghayan, M, Potemkin, DI, Rubio-Marcos, F, Uskov, SI, Snytnikov, PV & Hussainova, I 2017, 'Template-Assisted Wet-Combustion Synthesis of Fibrous Nickel-Based Catalyst for Carbon Dioxide Methanation and Methane Steam Reforming', ACS Applied Materials and Interfaces, Том. 9, № 50, стр. 43553-43562. https://doi.org/10.1021/acsami.7b08129

APA

Aghayan, M., Potemkin, D. I., Rubio-Marcos, F., Uskov, S. I., Snytnikov, P. V., & Hussainova, I. (2017). Template-Assisted Wet-Combustion Synthesis of Fibrous Nickel-Based Catalyst for Carbon Dioxide Methanation and Methane Steam Reforming. ACS Applied Materials and Interfaces, 9(50), 43553-43562. https://doi.org/10.1021/acsami.7b08129

Vancouver

Aghayan M, Potemkin DI, Rubio-Marcos F, Uskov SI, Snytnikov PV, Hussainova I. Template-Assisted Wet-Combustion Synthesis of Fibrous Nickel-Based Catalyst for Carbon Dioxide Methanation and Methane Steam Reforming. ACS Applied Materials and Interfaces. 2017 дек. 20;9(50):43553-43562. doi: 10.1021/acsami.7b08129

Author

Aghayan, M. ; Potemkin, D. I. ; Rubio-Marcos, F. и др. / Template-Assisted Wet-Combustion Synthesis of Fibrous Nickel-Based Catalyst for Carbon Dioxide Methanation and Methane Steam Reforming. в: ACS Applied Materials and Interfaces. 2017 ; Том 9, № 50. стр. 43553-43562.

BibTeX

@article{6c62e688977146c1a52150a32e640e8a,
title = "Template-Assisted Wet-Combustion Synthesis of Fibrous Nickel-Based Catalyst for Carbon Dioxide Methanation and Methane Steam Reforming",
abstract = "Efficient capture and recycling of CO2 enable not only prevention of global warming but also the supply of useful low-carbon fuels. The catalytic conversion of CO2 into an organic compound is a promising recycling approach which opens new concepts and opportunities for catalytic and industrial development. Here we report about template-assisted wet-combustion synthesis of a one-dimensional nickel-based catalyst for carbon dioxide methanation and methane steam reforming. Because of a high temperature achieved in a short time during reaction and a large amount of evolved gases, the wet-combustion synthesis yields homogeneously precipitated nanoparticles of NiO with average particle size of 4 nm on alumina nanofibers covered with a NiAl2O4 nanolayer. The as-synthesized core-shell structured fibers exhibit outstanding activity in steam reforming of methane and sufficient activity in carbon dioxide methanation with 100% selectivity toward methane formation. The as-synthesized catalyst shows stable operation under the reaction conditions for at least 50 h.",
keywords = "carbon dioxide methanation, combustion synthesis, methane steam reforming, nanofibers, Ni-based catalyst",
author = "M. Aghayan and Potemkin, {D. I.} and F. Rubio-Marcos and Uskov, {S. I.} and Snytnikov, {P. V.} and I. Hussainova",
year = "2017",
month = dec,
day = "20",
doi = "10.1021/acsami.7b08129",
language = "English",
volume = "9",
pages = "43553--43562",
journal = "ACS applied materials & interfaces",
issn = "1944-8244",
publisher = "American Chemical Society",
number = "50",

}

RIS

TY - JOUR

T1 - Template-Assisted Wet-Combustion Synthesis of Fibrous Nickel-Based Catalyst for Carbon Dioxide Methanation and Methane Steam Reforming

AU - Aghayan, M.

AU - Potemkin, D. I.

AU - Rubio-Marcos, F.

AU - Uskov, S. I.

AU - Snytnikov, P. V.

AU - Hussainova, I.

PY - 2017/12/20

Y1 - 2017/12/20

N2 - Efficient capture and recycling of CO2 enable not only prevention of global warming but also the supply of useful low-carbon fuels. The catalytic conversion of CO2 into an organic compound is a promising recycling approach which opens new concepts and opportunities for catalytic and industrial development. Here we report about template-assisted wet-combustion synthesis of a one-dimensional nickel-based catalyst for carbon dioxide methanation and methane steam reforming. Because of a high temperature achieved in a short time during reaction and a large amount of evolved gases, the wet-combustion synthesis yields homogeneously precipitated nanoparticles of NiO with average particle size of 4 nm on alumina nanofibers covered with a NiAl2O4 nanolayer. The as-synthesized core-shell structured fibers exhibit outstanding activity in steam reforming of methane and sufficient activity in carbon dioxide methanation with 100% selectivity toward methane formation. The as-synthesized catalyst shows stable operation under the reaction conditions for at least 50 h.

AB - Efficient capture and recycling of CO2 enable not only prevention of global warming but also the supply of useful low-carbon fuels. The catalytic conversion of CO2 into an organic compound is a promising recycling approach which opens new concepts and opportunities for catalytic and industrial development. Here we report about template-assisted wet-combustion synthesis of a one-dimensional nickel-based catalyst for carbon dioxide methanation and methane steam reforming. Because of a high temperature achieved in a short time during reaction and a large amount of evolved gases, the wet-combustion synthesis yields homogeneously precipitated nanoparticles of NiO with average particle size of 4 nm on alumina nanofibers covered with a NiAl2O4 nanolayer. The as-synthesized core-shell structured fibers exhibit outstanding activity in steam reforming of methane and sufficient activity in carbon dioxide methanation with 100% selectivity toward methane formation. The as-synthesized catalyst shows stable operation under the reaction conditions for at least 50 h.

KW - carbon dioxide methanation

KW - combustion synthesis

KW - methane steam reforming

KW - nanofibers

KW - Ni-based catalyst

UR - http://www.scopus.com/inward/record.url?scp=85037989132&partnerID=8YFLogxK

U2 - 10.1021/acsami.7b08129

DO - 10.1021/acsami.7b08129

M3 - Article

C2 - 29155551

AN - SCOPUS:85037989132

VL - 9

SP - 43553

EP - 43562

JO - ACS applied materials & interfaces

JF - ACS applied materials & interfaces

SN - 1944-8244

IS - 50

ER -

ID: 9400419