Dry reforming of methane by stable Ni–Mo nanocatalysts on single-crystalline MgO

Y. Song, E. Ozdemir, S. Ramesh, A. Adishev, S. Subramanian, A. Harale, M. Albuali, B. A. Fadhel, A. Jamal, D. Moon, S. H. Choi, C. T. Yavuz*
Science, 367, 6479, 777-781 (2020).
DOI: 10.1126/science.aav2412

Large-scale carbon fixation requires high-volume chemicals production from carbon dioxide. Dry reforming of methane could provide an economically feasible route if coke- and sintering-resistant catalysts were developed. Here, we report a molybdenum-doped nickel nanocatalyst that is stabilized at the edges of a single-crystalline magnesium oxide (MgO) support and show quantitative production of synthesis gas from dry reforming of methane. The catalyst runs more than 850 hours of continuous operation under 60 liters per unit mass of catalyst per hour reactive gas flow with no detectable coking. Synchrotron studies also show no sintering and reveal that during activation, 2.9 nanometers as synthesized crystallites move to combine into stable 17-nanometer grains at the edges of MgO crystals above the Tammann temperature. Our findings enable an industrially and economically viable path for carbon reclamation, and the “Nanocatalysts On Single Crystal Edges” technique could lead to stable catalyst designs for many challenging reactions.

Perspective: Liyu Chen, Qiang Xu*, "Fewer defects, better catalysis?", p. 737
Research summary by Phil Szuromi, "Overcoming surface defects", p. 752-753
Highlighted in Chemistry World, C&ENNature Asia
Korean press release, English press release

Media Coverage:
Science Daily
Nanowerk
UPI
Phys.org
The Engineer
Wikipedia: 2020 in Science

Korean Media:
서울경제
해럴드경제
충청일보
교수신문
충남일보
베리타스알파
글로벌이코노믹
이뉴스투데이
뉴스핌
뉴스1
전자신문
국제뉴스
아시아경제
헬로디디
인더스트리뉴스
대전시티저널
에너지경제
아시아뉴스통신
 
Copyright © . ONE Lab - Prof. Cafer T. Yavuz - Posts · Comments
Theme Template by BTDesigner · Powered by Blogger