114 research outputs found
Influence of nanocatalyst on oxidative coupling, steam and dry reforming of methane: A short review
The influence of nanocatalyst on three main reactions for natural gas conversion such as steam reforming, dry reforming and oxidative coupling of methane has been reviewed with an emphasis on the literatures’ reports and results. Although literatures’ experimental results showed that the conversion of methane over the nanocatalysts was higher than that obtained from the ordinary catalysts, there was no correlation between the conversion of methane and the average sizes of the nanoparticles. The results of some nanocatalyst are also compared to ordinary catalysts in the literature which shows the improved influence of nanoscale catalyst performance on methane conversion
Ni-based bimetallic heterogeneous catalysts for energy and environmental applications
Bimetallic catalysts have attracted extensive attention for a wide range of applications in energy production and environmental remediation due to their tunable chemical/physical properties. These properties are mainly governed by a number of parameters such as compositions of the bimetallic systems, their preparation method, and their morphostructure. In this regard, numerous efforts have been made to develop “designer” bimetallic catalysts with specific nanostructures and surface properties as a result of recent advances in the area of materials chemistry. The present review highlights a detailed overview of the development of nickel-based bimetallic catalysts for energy and environmental applications. Starting from a materials science perspective in order to obtain controlled morphologies and surface properties, with a focus on the fundamental understanding of these bimetallic systems to make a correlation with their catalytic behaviors, a detailed account is provided on the utilization of these systems in the catalytic reactions related to energy production and environmental remediation. We include the entire library of nickel-based bimetallic catalysts for both chemical and electrochemical processes such as catalytic reforming, dehydrogenation, hydrogenation, electrocatalysis and many other reactions
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Search for high-mass resonances decaying into τ-lepton pairs in pp collisions at √ s = 7TeV
Ni-Based Catalysts for Low Temperature Methane Steam Reforming: Recent Results on Ni-Au and Comparison with Other Bi-Metallic Systems
Steam reforming of light hydrocarbons provides a promising method for hydrogen production. Ni-based catalysts are so far the best and the most commonly used catalysts for steam reforming because of their acceptably high activity and significantly lower cost in comparison with alternative precious metal-based catalysts. However, nickel catalysts are susceptible to deactivation from the deposition of carbon, even when operating at steam-to-carbon ratios predicted to be thermodynamically outside of the carbon-forming regime. Reactivity and deactivation by carbon formation can be tuned by modifying Ni surfaces with a second metal, such as Au through alloy formation. In the present review, we summarize the very recent progress in the design, synthesis, and characterization of supported bimetallic Ni-based catalysts for steam reforming. The progress in the modification of Ni with noble metals (such as Au and Ag) is discussed in terms of preparation, characterization and pretreatment methods. Moreover, the comparison with the effects of other metals (such as Sn, Cu, Co, Mo, Fe, Gd and B) is addressed. The differences of catalytic activity, thermal stability and carbon species between bimetallic and monometallic Ni-based catalysts are also briefly shown
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In situ spectroscopic detection of SMSI effect in a Ni/CeO2 system: hydrogen-induced burial and dig out of metallic nickel
In situ APPES technique demonstrates that the strong metal support interaction effect (SMSI) in the Ni-ceria system is associated with the decoration and burial of metallic particles by the partially reduced support, a phenomenon reversible by evacuation at high temperature of the previously absorbed hydrogen
Promotional Effect of the Base Metal on Bimetallic Au–Ni/CeO<sub>2</sub> Catalysts Prepared from Core–Shell Nanoparticles
A set
of three catalysts (a Au–Ni bimetallic and their corresponding
Au and Ni monometallics) has been prepared by impregnation of previously
prepared suspensions of monodisperse metallic particles to ensure
the precise control of their physicochemical characteristics (size
and composition). The Au–Ni/CeO<sub>2</sub> bimetallic catalysts
present better reactivity toward CO oxidation than monometallic Au/CeO<sub>2</sub> and Ni/CeO<sub>2</sub> prepared under identical conditions.
“operando-like” characterization of Ni and Au atoms
into the bimetallic particles using, among other techniques, ambient-pressure
photoelectron spectroscopy and diffuse reflectance infrared Fourier
transform spectroscopy has allowed us to determine that under oxidative
conditions the samples present a Au@NiO core–shell distribution,
where Ni surface atoms are affected by an electronic effect from inner
Au atoms
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