Mechanistic Considerations on the H<sub>2</sub> Production by Methanol Thermal‐assisted Photocatalytic Reforming over Cu/TiO<sub>2</sub> Catalyst

Platero, F.J. Manso; López-Martín, Ángeles; Caballero, A.; Colón, G.

doi:10.1002/cctc.202100680

Cited by 16 publications

(20 citation statements)

References 45 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In Figure 6 we summarize two presentative studies using Pt/CeO x /TiO 2 39 and CuO/ZnO/ZrO 2 45 systems. Relatively similar results can be encountered in works concerning Cu/TiO 2 , 59,70 PdCu/TiO 2 , 60 Ru/RuO x /TiO 2, 41 and Cu/CeO x /TiO 2 . 38 The methanol reforming reaction was the subject of analysis in all cases.…”

Section: Interpretation Of Excess Functionssupporting

confidence: 82%

“…Although complex this appears a general or basic mechanism, common to all reported works. [38][39][40][41]45,59,60,70 Comparing dark and illuminated conditions, the works highlight the promotion of different intermediates under thermo-photo conditions. Specifically, under thermo-photo conditions, most of the active materials promote formate production, 38,39,45 while a few described significant promotion of formaldehyde 41 and/or the water gas shift reaction.…”

Section: Interpretation Of Excess Functionsmentioning

confidence: 99%

“…Although complex, this appears a general or basic mechanism, common to all reported works. 38–41,45,59,60,70…”

Section: Thermo–photoefficiencymentioning

confidence: 99%

See 2 more Smart Citations

Efficiency of thermo–photocatalytic production of hydrogen from biomolecules: a multifaceted perspective

et al. 2022

View full text Add to dashboard Cite

show abstract

Section: Interpretation Of Excess Functionssupporting

confidence: 82%

Section: Interpretation Of Excess Functionsmentioning

confidence: 99%

See 1 more Smart Citation

Efficiency of thermo–photocatalytic production of hydrogen from biomolecules: a multifaceted perspective

et al. 2022

View full text Add to dashboard Cite

show abstract

“…As mentioned in the introduction section, CO is not detected as reaction product, which indicates, in first place, the existence of decarbonylation reactions to generate the chemical species and, also, the consumption of carbon monoxide through a water gas shift reaction, which further promotes the formation of hydrogen with the co-generation of carbon dioxide. The water gas shift efficiency to generate hydrogen depends critically on the Pt particle size and metal-support interface, as CO can act as a poison or not depending on the adsorption enthalpy, surface coverage, and degree of activation [9,26,35,37]. In our case, infrared CO signals display a marked dependence on the sample (sulfide inhibits to a significant extent the formation) and methanol content of the reaction mixture.…”

Section: Resultsmentioning

confidence: 73%

“…The alkoxy route generates carboxylate-types species, formic acid, and methyl formate. These are typical main products of Pt-TiO 2 composites [9,17,25,26]. However, the less studied, carbon-centered radical route renders a larger number of products such as ethylene glycol, acetaldehyde, acetic acid, and also C 3 products such as 2-methoxyacetaldehyde [27].…”

Section: Resultsmentioning

confidence: 99%

H2 Photoproduction Efficiency: Implications of the Reaction Mechanism as a Function of the Methanol/Water Mixture

et al. 2022

Self Cite

View full text Add to dashboard Cite

The influence of the reaction pathway of the sacrificial molecule oxidation to generate hydrogen is here investigated for lean and rich methanol reaction mixtures. Pt-TiO2 powders promoted or not with tin sulfide were used as catalysts. With the help of in situ infrared experiments under reaction conditions, methanol evolution was shown to take place by hole-related oxidation steps, with alkoxy and carbon-centered species as key radical species. The study analyzed quantitatively the fate and chemical use of the photons absorbed by the solids with the help of the quantum efficiency and the useful fraction of photons observables. Within this framework, the role of the sulfide component to promote photoactivity is interpreted, braiding chemical and photonic information.

show abstract

The Influence of the Reaction Conditions on the Photocatalytic Gas‐Phase Conversion of Methanol with Water Vapor over Pt/SrTiO₃ in a Continuously Operated Flow Reactor

Deitermann,

Haver,

Mei

et al. 2023

Advanced Sustainable Systems

View full text Add to dashboard Cite

Continuous methanol photooxidation in the gas phase is a promising method to produce valuable chemicals like formaldehyde or methyl formate in addition to hydrogen under mild conditions. The influence of the reaction conditions on the selectivity of methanol oxidation to formaldehyde is studied using a heated flat‐plate flow photoreactor illuminated by an LED array (λmax = 368 nm) and Pt‐modified SrTiO3. A combination of online analytical methods allowed to quantify all gaseous products during extended time‐on‐stream (> 48 h TOS). The selectivity to formaldehyde is found to be primarily determined by the residence time and the process temperature. At a low methanol to water ratio, methanol conversion and evolution of CO2 are favored, whereas the light intensity primarily influenced the apparent quantum yield from 5.1 to 1.8% at 9.36 to 52.93 mW cm−2, respectively, and the methanol conversion thus determining the economic efficiency of the process. Operation temperatures higher than 110 °C resulted in a strong deactivation of the catalyst while simultaneously the formation of CO at the expense of formaldehyde selectivity is favored. This study demonstrates the importance of understanding the influence of relevant reaction conditions and the potential of selective photocatalytic gas‐phase oxidation of small molecules.

show abstract

Mechanistic Considerations on the H₂ Production by Methanol Thermal‐assisted Photocatalytic Reforming over Cu/TiO₂ Catalyst

Cited by 16 publications

References 45 publications

Efficiency of thermo–photocatalytic production of hydrogen from biomolecules: a multifaceted perspective

Efficiency of thermo–photocatalytic production of hydrogen from biomolecules: a multifaceted perspective

H2 Photoproduction Efficiency: Implications of the Reaction Mechanism as a Function of the Methanol/Water Mixture

The Influence of the Reaction Conditions on the Photocatalytic Gas‐Phase Conversion of Methanol with Water Vapor over Pt/SrTiO₃ in a Continuously Operated Flow Reactor

Contact Info

Product

Resources

About

Mechanistic Considerations on the H2 Production by Methanol Thermal‐assisted Photocatalytic Reforming over Cu/TiO2 Catalyst

Cited by 16 publications

References 45 publications

Efficiency of thermo–photocatalytic production of hydrogen from biomolecules: a multifaceted perspective

Efficiency of thermo–photocatalytic production of hydrogen from biomolecules: a multifaceted perspective

H2 Photoproduction Efficiency: Implications of the Reaction Mechanism as a Function of the Methanol/Water Mixture

The Influence of the Reaction Conditions on the Photocatalytic Gas‐Phase Conversion of Methanol with Water Vapor over Pt/SrTiO3 in a Continuously Operated Flow Reactor

Contact Info

Product

Resources

About

Mechanistic Considerations on the H₂ Production by Methanol Thermal‐assisted Photocatalytic Reforming over Cu/TiO₂ Catalyst

The Influence of the Reaction Conditions on the Photocatalytic Gas‐Phase Conversion of Methanol with Water Vapor over Pt/SrTiO₃ in a Continuously Operated Flow Reactor