A metal–oxide interface enhances the methane oxidative coupling reaction in a solid oxide electrolyzer-Reference-Cited by-同舟云学术

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A metal–oxide interface enhances the methane oxidative coupling reaction in a solid oxide electrolyzer

Published:2022 Issue:28 Volume:46 Page:13791-13796
ISSN:1144-0546
Container-title:New Journal of Chemistry
language:en
Short-container-title:New J. Chem.

Author:

Xu Yihong¹,Zhang Youkai¹,Huang Lingwei¹,Gan Lizhen¹^ORCID

Affiliation:

1. College of Transport and Civil Engineering, Fujian Agriculture and Forestry University, No. 15 Shangxiadian Road, Fuzhou, Fujian, China

Abstract

The reaction mechanism for the oxidative coupling of methane.

Funder

National Natural Science Foundation of China

Department of Education, Fujian Province

Natural Science Foundation of Fujian Province

Publisher

Royal Society of Chemistry (RSC)

Subject

Materials Chemistry,General Chemistry,Catalysis

Link

http://pubs.rsc.org/en/content/articlepdf/2022/NJ/D2NJ02763A

Reference34 articles.

1. Oxidative Coupling of Methane over Li/MgO: Catalyst and Nanocatalyst Performance

2. Exploiting shape effects of La2O3 nanocatalysts for oxidative coupling of methane reaction

3. Catalytic conversion of methane to more useful chemicals and fuels: a challenge for the 21st century

4. Direct Conversion of Methane to Value-Added Chemicals over Heterogeneous Catalysts: Challenges and Prospects

5. La2O3 catalysts with diverse spatial dimensionality for oxidative coupling of methane to produce ethylene and ethane

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1. In-situ exsolved Ni nanoparticles for boosting CO2 reduction in solid oxide electrolysis cell;Journal of Power Sources;2024-12

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3. Enhanced CO₂ electrolysis with in situ exsolved nanoparticles in the perovskite cathode;New Journal of Chemistry;2024

4. Direct CH4–CO2 solid oxide fuel cells combined with Li-doped perovskite dry reforming catalysts for high efficiency power generation;Journal of Power Sources;2023-12

5. Direct carbon dioxide-methane solid oxide fuel cells integrated for high-efficiency power generation with La0.75Sr0.25Cr0.5Fe0.4Ni0.1O3–δ-based dry reforming catalyst;Separation and Purification Technology;2023-02

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