Dr Jose A Rodriguez PhD

The electronic properties of Ni and Pt nanoparticles deposited on CeO2 have been examined using core and valence photoemission…

Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and the oxide-metal interface in a catalytic reaction…

CO2 hydrogenation to methanol is regarded as a promising reaction to catalytically convert a major greenhouse gas (CO2) into a value-added product (methanol)…

Division/Committee: [CATL] Division of Catalysis Science & Technology

During the last twenty years, different combinations of ceria-copper supported and inverse metal oxide catalysts have been used for different catalytic reactions such as CO oxidation, CO2 reduction, and the water-gas shift…

Division/Committee: [CATL] Division of Catalysis Science & Technology

Division/Committee: [CATL] Division of Catalysis Science & Technology

Division/Committee: [CATL] Division of Catalysis Science & Technology

The electronic properties of Ni and Pt nanoparticles deposited on CeO2(111) have been examined using core and valence photoemission…

Division/Committee: [CATL] Division of Catalysis Science & Technology

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CO2 hydrogenation to methanol has attracted increasing attention with the development of renewable hydrogen. Here we report an In2O3 supported Au catalyst that exhibits excellent performance for hydrogenation of CO2 selectively to methanol…

During the last twenty years, different combinations of ceria-copper supported and inverse metal oxide catalysts have been used for different catalytic reactions such as CO oxidation, CO2 reduction, and the water-gas shift…

The rational synthesis of Cu@TiO2 core@shell nanowire (NW) structures was thoroughly explored using a microwave-assisted method through the tuning of experimental parameters such as but not limited to (i) controlled variation in molar ratios, (ii) the effect of discrete Ti precursors, (iii) the met…

The transformation of methane into methanol or higher alcohols at moderate temperature and pressure conditions is of great environmental interest and remains a challenge despite many efforts…

Highly selective oxidation of methane to methanol has long been challenging in catalysis. Here, we reveal the water-promoted selective tuning from carbon monoxide and carbon dioxide to methanol with the exposure of methane, oxygen, and water to a CeO2/Cu2O/Cu(111) model catalyst…

Methane is a primary component of abundant low-cost natural gas, but it is currently underutilized and exhausted wastefully, affecting global warming. Therefore, exploiting and converting this inefficiently wasted resource to value-added chemicals is drawing great attention…

The transformation of CO2 into alcohols or other hydrocarbon compounds is challenging because of the difficulties associated with the chemical activation of CO2 by heterogeneous catalysts…

Methane steam reforming (MSR, CH4 + H2O ↔ 3H2 + CO) plays a key role in the production of syngas and hydrogen from natural gas. Ni-based systems are promising MSR catalysts because of their high activity and low cost, but coke formation generally poses a severe problem…

The direct oxidation of methane (CH4) to methanol (CH3OH) at low temperatures has long been one of the holy grail reactions in C1 chemistry…

The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…

Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…

The simplest olefin, _i.e._ ethylene (C2H4), is an hydrocarbon utilized in polymerization reactions to produce commodities…

This talk will review research focussed on _in-situ_ studies for the activation and conversion of methane on metal-oxide and oxide-oxide interfaces…

The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…

: [CATL] Division of Catalysis Science & Technology

Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…

: [CATL] Division of Catalysis Science & Technology

: [CATL] Division of Catalysis Science & Technology

The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…

: [CATL] Division of Catalysis Science & Technology

Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…

: [CATL] Division of Catalysis Science & Technology

: [CATL] Division of Catalysis Science & Technology

The simplest olefin, _i.e._ ethylene (C2H4), is an hydrocarbon utilized in polymerization reactions to produce commodities…

: [COLL] Division of Colloid & Surface Chemistry

The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…

: [CATL] Division of Catalysis Science & Technology

Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…

: [CATL] Division of Catalysis Science & Technology

: [CATL] Division of Catalysis Science & Technology

The simplest olefin, _i.e._ ethylene (C2H4), is an hydrocarbon utilized in polymerization reactions to produce commodities…

: [COLL] Division of Colloid & Surface Chemistry

This talk will review research focussed on _in-situ_ studies for the activation and conversion of methane on metal-oxide and oxide-oxide interfaces…

: [ENFL] Division of Energy and Fuels

The mechanism for the hydrogenation of CO2 to ethanol in the presence of alkali promoters on the surface or water in the reaction feed has been investigated on well-defined systems using a combination of in-situ techniques {infrared spectroscopy (IR), ambient-pressure X-ray photoelectron spectrosco…

: [CATL] Division of Catalysis Science & Technology

Studies in recent years have shown that several metal-oxide interfaces adopt an inverse oxide/metal configuration under CO2 hydrogenation conditions. Inverse oxide/metal catalysts have shown to be excellent systems for studying the role of the oxide and oxide-metal interface in catalytic reactions…

: [CATL] Division of Catalysis Science & Technology

: [CATL] Division of Catalysis Science & Technology