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Development of ceria-supported metal-oxide (MO<sub>x</sub>/CeO<sub>2</sub>) catalysts via a one-pot chemical vapor deposition (OP-CVD) technique: Structure and reverse water gas shift reaction studyDevelopment of ceria-supported metal-oxide (MOx/CeO2) catalysts via a one-pot chemical vapor deposition (OP-CVD) technique: Structure and reverse water gas shift reaction study

Other Titles
Development of ceria-supported metal-oxide (MOx/CeO2) catalysts via a one-pot chemical vapor deposition (OP-CVD) technique: Structure and reverse water gas shift reaction study
Authors
Pophali, AmolShimogawa, RyuichiZhang, LihuaKwon, GihanYoon, KwangsukRoh, JangeonKim, Do HeuiSong, HocheolFrenkel, Anatoly I.Kim, Taejin
Issue Date
Jan-2025
Publisher
Elsevier BV
Keywords
Catalysts; One-pot chemical vapor deposition; Organometallic precursor; Monomer; Reverse water gas shift reaction; Ceria
Citation
Chemical Engineering Journal, v.504, pp 1 - 13
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
Chemical Engineering Journal
Volume
504
Start Page
1
End Page
13
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206383
DOI
10.1016/j.cej.2024.158726
ISSN
1385-8947
1873-3212
Abstract
Current synthesis techniques for metal oxide (MOx)-supported catalysts have certain limitations of undesired target loading, ineffective dispersion of active species over the surface, uncontrolled particle size of active species, and complicated synthesis steps. We developed a one-pot chemical vapor deposition (OP-CVD) methodology; by using which a solid metal precursor forms a vapor in a controlled condition and gets supported over the surrounding matrix. The theoretical stability followed by experimental validation using TGA is crucial for selecting the metal precursors. Three simple steps viz. premixing, dispersion, and rapid fixation by calcination are involved in the catalyst development via the OP-CVD approach. This study solely focused on the synthesis of 3d transition MOx over ceria support. The physicochemical characterizations of the prepared catalysts were performed by XRD, ICP-OES, SEM-EDX, CO pulse chemisorption, XANES, and EXAFS analyses to understand the crystal structure of involved species, target metal loading, dispersion, and particle size and prove the feasibility and viability of OP-CVD. The prepared catalysts were further tested for reverse water gas shift (RWGS) reaction to link their structural information with activity. The RWGS reaction data showed that the CO activity and CO selectivity were metal - and metal precursor-dependent. Higher CO activity of > 0.1 mol/h g-cat was observed for Cu and Co-based catalysts, with CO selectivity of similar to 100 %. This study provides an opportunity to produce efficient supported catalysts in a convenient way, providing effective catalytic activity.
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Song, Hocheol
COLLEGE OF ENGINEERING (DEPARTMENT OF EARTH RESOURCES AND ENVIRONMENTAL ENGINEERING)
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