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Structured catalysts and catalytic processes: transport and reaction perspectives
The structure of catalysts determines the performance of catalytic processes. Intrinsically, the
electronic and geometric structures influence the interaction between active species and the …
electronic and geometric structures influence the interaction between active species and the …
A prompt decarbonization pathway for ship**: green hydrogen, ammonia, and methanol production and utilization in marine engines
J Shi, Y Zhu, Y Feng, J Yang, C ** industry has reached a higher level of maturity in terms of its knowledge and
awareness of decarbonization challenges. Carbon-free or carbon-neutralized green fuel …
awareness of decarbonization challenges. Carbon-free or carbon-neutralized green fuel …
Flame-made ternary Pd-In2O3-ZrO2 catalyst with enhanced oxygen vacancy generation for CO2 hydrogenation to methanol
Palladium promotion and deposition on monoclinic zirconia are effective strategies to boost
the performance of bulk In2O3 in CO2-to-methanol and could unlock superior reactivity if …
the performance of bulk In2O3 in CO2-to-methanol and could unlock superior reactivity if …
Confining ultrafine Pt nanoparticles on In 2 O 3 nanotubes for enhanced selective methanol production by CO 2 hydrogenation
A novel Pt@ In2O3 catalyst assembled from ultrafine Pt nanoparticles confined on In2O3
nanotubes is fabricated from in situ topological transformation of H2PtCl6-soaked In-MIL-68 …
nanotubes is fabricated from in situ topological transformation of H2PtCl6-soaked In-MIL-68 …
Atomic Structural Origin of the High Methanol Selectivity over In2O3–Metal Interfaces: Metal–Support Interactions and the Formation of a InOx Overlayer in Ru/In2O3 Catalysts …
CO2 hydrogenation to methanol is of great environmental and economic interest due to its
potential to reduce carbon emissions and produce valuable chemicals in one single …
potential to reduce carbon emissions and produce valuable chemicals in one single …
Confinement-Induced Indium Oxide Nanolayers Formed on Oxide Support for Enhanced CO2 Hydrogenation Reaction
J Wang, R Li, G Zhang, C Dong, Y Fan… - Journal of the …, 2024 - ACS Publications
An enclosed nanospace often shows a significant confinement effect on chemistry within its
inner cavity, while whether an open space can have this effect remains elusive. Here, we …
inner cavity, while whether an open space can have this effect remains elusive. Here, we …
CO2 Hydrogenation to Methanol over In2O3-Based Catalysts: From Mechanism to Catalyst Development
J Wang, G Zhang, J Zhu, X Zhang, F Ding, A Zhang… - Acs …, 2021 - ACS Publications
Carbon dioxide (CO2) hydrogenation to methanol with H2 produced with renewable energy
represents a promising path for the effective utilization of a major anthropogenic greenhouse …
represents a promising path for the effective utilization of a major anthropogenic greenhouse …
[HTML][HTML] Catalytic CO2 conversion to C1 value-added products: Review on latest catalytic and process developments
With the increase in CO 2 emissions in the last decades, CO 2 capture and storage and CO
2 capture and utilization technologies have been interesting topics in literature and industry …
2 capture and utilization technologies have been interesting topics in literature and industry …
The Promoting Role of Ni on In2O3 for CO2 Hydrogenation to Methanol
Ni-promoted indium oxide (In2O3) is a promising catalyst for the selective hydrogenation of
CO2 to CH3OH, but the nature of the active Ni sites remains unknown. By employing density …
CO2 to CH3OH, but the nature of the active Ni sites remains unknown. By employing density …
[HTML][HTML] Recent advancements and perspectives of the CO2 hydrogenation reaction
Owing to excessive carbon dioxide (CO 2) emissions, which cause severe environmental
issues, the conversion and utilization of CO 2 have received increasing attention. Owing to …
issues, the conversion and utilization of CO 2 have received increasing attention. Owing to …