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April 24, 2025
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Unveiling the pathways and site requirements of methanol oxidative dehydrogenation on MoO3/TiO2 catalysts: An operando-FTIR study

Publicated to: JOURNAL OF CATALYSIS. 447 116094- - 2025-07-01 447(), DOI: 10.1016/j.jcat.2025.116094

Authors:

Galdames, G; Fuentes, B; Gómez, D; Concepción, P; Jiménez, R; Karelovic, A
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Affiliations

ANID Millennium Sci Initiat Program, Millennium Nucleus Catalyt Proc Sustainable Chem C, Santiago 8320000, Chile - Author
Univ Concepcion, Fac Engn, Dept Chem Engn, Carbon & Catalysis Lab CarboCat, Concepcion 4070386, Chile - Author
Univ Politecn Valencia, Consejo Super Invest Cient UPV CSIC, Inst Tecnol Quim, Ave Naranjos S-N, Valencia 46022, Spain - Author
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Abstract

Methanol oxidative dehydrogenation was studied on sub-monolayer and crystalline MoO3/TiO2-supported catalysts using operando-FTIR spectroscopy. Results revealed two distinct methyl formate (MF) formation pathways, determined by the molybdenum oxide structure. Quantitative and qualitative evidence indicated that MF and dimethoxymethane (DMM) formation occur via distinct reaction intermediates. MF formation is linked to surface formate consumption, supported by the similarity between steady-state MF formation rate measured in a fixed-bed reactor and transient initial formate consumption rate determined by operando-FTIR. Apparent activation energies for HCOO* consumption (90 and 88 kJ mol-1) and MF formation (83 and 51 kJ mol-1) for 2.5 and 15 at. Mo nm- 2 samples, respectively, indicate that the formation pathway depends on the molybdenum oxide structure. Oligomeric, octahedral molybdenum oxide catalysts produce MF via adsorbed formate consumption, while crystalline MoO3 catalysts enable a parallel pathway, likely involving hemiacetal intermediates. This change in reaction pathway correlates with the structural transition from oligomeric to crystalline molybdenum oxide, as characterized by XRD, in situ Raman spectroscopy, FTIR of low-temperature CO adsorption, and XPS, among other techniques. The increase of surface formate consumption is related to the enhancement of the redox properties of the catalyst, attributed to interactions of molybdenum oxide with titania support and the presence of readily reducible Mo6+ sites that influence adsorbed formaldehyde reaction pathways. The observed activity and selectivity are explained by a three-active-site mechanism: molybdenum oxide redox sites for methanol dehydrogenation, molybdenum oxide acid sites for hemiacetal and DMM formation, and molybdenumtitania interfacial sites for HCOO* and MF formation.
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Keywords

Hydrogen molybdenumIMetal-oxide catalystsMethanol oxidative dehydrogenationMethyl formateMolecular-structuresMolybdenum catalystsOperando-ftirQuantitative-determinationReaction mechanisSelective oxidationSurface-structuresTemperature co adsorption

Quality index

Bibliometric impact. Analysis of the contribution and dissemination channel

The work has been published in the journal JOURNAL OF CATALYSIS due to its progression and the good impact it has achieved in recent years, according to the agency WoS (JCR), it has become a reference in its field. In the year of publication of the work, 2025, it was in position 30/176, thus managing to position itself as a Q1 (Primer Cuartil), in the category Engineering, Chemical.

Independientemente del impacto esperado determinado por el canal de difusión, es importante destacar el impacto real observado de la propia aportación.

Según las diferentes agencias de indexación, el número de citas acumuladas por esta publicación hasta la fecha 2026-04-03:

  • WoS: 2
  • Scopus: 2
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Impact and social visibility

From the perspective of influence or social adoption, and based on metrics associated with mentions and interactions provided by agencies specializing in calculating the so-called "Alternative or Social Metrics," we can highlight as of 2026-04-03:

  • The use of this contribution in bookmarks, code forks, additions to favorite lists for recurrent reading, as well as general views, indicates that someone is using the publication as a basis for their current work. This may be a notable indicator of future more formal and academic citations. This claim is supported by the result of the "Capture" indicator, which yields a total of: 9 (PlumX).
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Leadership analysis of institutional authors

This work has been carried out with international collaboration, specifically with researchers from: Chile.

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Awards linked to the item

The authors thank the government of Chile for the financing assigned through the following projects: Millennium Science Initiative Program-NCN2021_090, CONICYT PIA/APOYO CCTE AFB170007, ANID-Chile. Gabriel Galdames acknowledges ANID (Chile) for the doctoral scholarship Beca de Doc.Nac./2020-21201192. Daviel Gomez acknowledges the MSCA postdoctoral fellowship from the Horizon Europe research and innovation program (Project 101154019-ADVCATALNANOMAT) . Patricia Concepcion acknowledges the Ministerio de Ciencia, Innovacion y Universidades, grant number PID2021-1262350BC31, and Generalitat Valenciana (GVA) , grant number CIAICO/2021/2138. This study forms a part of the Advanced Materials programme and was supported by MCIN with funding from European Union Next Generation EU (PRTR-C17.11) (TED2021-130756B-C32) and by Generalitat Valenciana (ref MFA/2022/016) .
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