Noble Metal Ionic Catalysts

Hegde, M. S.; Madras, Giridhar; Patil, K. C.

doi:10.1021/ar800209s

Cited by 318 publications

(286 citation statements)

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“…[1][2][3][4][5][6][7] The atomically dispersed supported noble metal catalysts represent a new generation of cost-effective catalytic materials. [1][2][3][4][5][6][7] The efficient use of noble metals requires the noble metal atoms to be anchored at the surface of the catalyst. The thermal stability of such systems must be high enough to prevent sintering and dissolution of the noble metal into the bulk.…”

Section: Introductionmentioning

confidence: 99%

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Surface sites on Pt–CeO₂mixed oxide catalysts probed by CO adsorption: a synchrotron radiation photoelectron spectroscopy study

Neitzel

Lykhach

Škála

et al. 2014

Phys. Chem. Chem. Phys.

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By means of synchrotron radiation photoemission spectroscopy, we have investigated Pt-CeO 2 mixed oxide films prepared on CeO 2 (111)/Cu(111). Using CO molecules as a probe, we associate the corresponding surface species with specific surface sites. This allows us to identify the changes in the composition and morphology of Pt-CeO 2 mixed oxide films caused by annealing in an ultrahigh vacuum.Specifically, two peaks in C 1s spectra at 289.4 and 291.2 eV, associated with tridentate and bidentate carbonate species, are formed on the nanostructured stoichiometric CeO 2 film. The peak at 290.5-291.0 eV in the C 1s spectra indicates the onset of restructuring, i.e. coarsening, of the Pt-CeO 2 film. This peak is associated with a carbonate species formed near an oxygen vacancy. The onset of cerium oxide reduction is indicated by the peak at 287.8-288.0 eV associated with carbonite species formed near Ce 3+ cations. The development of surface species on the Pt-CeO 2 mixed oxides suggests that restructuring of the films occurs above 300 K irrespective of Pt loadings. We do not find any adsorbed CO species associated with Pt 4+ or Pt 2+ . The onset of Pt 2+ reduction is indicated by the peak at 286.9 eV in the C 1s spectra due to CO adsorption on metallic Pt particles. The thermal stability of Pt 2+ in Pt-CeO 2 mixed oxide depends on Pt loading. We find excellent stability of Pt 2+ for 12% Pt content in the CeO 2 film, whereas at a Pt concentration of 25% in the CeO 2 film, a large fraction of the Pt 2+ is converted into metallic Pt particles above 300 K.

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Section: Introductionmentioning

confidence: 99%

“…Pt-CeO 2 mixed oxides that contain ionic Pt species can be prepared by several methods, including solution combustion, 3,4,9,10 r.f. magnetron sputtering, [11][12][13] and co-deposition of Pt and Ce in the oxygen atmosphere.…”

Section: Introductionmentioning

confidence: 99%

Surface sites on Pt–CeO₂mixed oxide catalysts probed by CO adsorption: a synchrotron radiation photoelectron spectroscopy study

Neitzel

Lykhach

Škála

et al. 2014

Phys. Chem. Chem. Phys.

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“…The rates of conversion are 20-30 times higher than the corresponding metal particles impregnated catalysts [10] and their activation energies could be obtained from Arrhenius plots of the temperature dependence of reaction rates. These catalysts have been tested for NO x reduction also [11]. Using first principle density functional theory (DFT), it is shown that CO adsorption in these catalysts occurs at the ionic sites of Pd 2? , with a decrease in the net energy of the system [12].…”

Section: Resultsmentioning

confidence: 99%

Noble metal ion-substituted ceria as efficient oxygen storage catalysts for clean combustion of fuels

Vijayaraghavan

2013

Appl Petrochem Res

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Three-way catalysts, a component of automobile converters, can control auto exhaust emissions by its capacity of converting CO, un-burnt hydrocarbon and oxides of nitrogen (NO x ) into less harmful CO 2 , H 2 O and N 2 simultaneously. This process is efficient only when the A/F ratio is at 14.7. To widen the ratio for better chemical control, oxygen storage catalysts (OSC) based on CeO 2, capable of three-way action, are employed in converters along with conventional catalysts. In this article, the enhanced activity of noble metal ion incorporated/dispersed CeO 2 catalysts towards three-way action over conventional metal particles dispersed (in a matrix) catalysts is illustrated. The better performance of the metal ion dispersed catalysts is attributed to better dispersion of active metal ion sites over the reducible matrix like CeO 2, leading to many-fold increase in the number of active sites.

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“…CeO 2 colloidal particles obtained by the solvothermal method at 250°C were coagulated with 1 mol/L solutions of various bases: NaOH, Na 2 CO 3 and NaHCO 3 . After calcination at 300°C of the coagulated products, the CeO 2 powders so-obtained had almost the same crystallite sizes (45 nm), while their BET surface areas varied considerably in the range from 61122 m 2 /g.…”

Section: ¹1mentioning

confidence: 99%

Synthesis of metal oxides with improved performance using a solvothermal method

Hosokawa

2016

J. Ceram. Soc. Japan

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We have explored a solvothermal method for synthesizing various metal oxides in alcohol or glycol media at temperatures around 300°C. This review summarizes our recent results on the solvothermal synthesis of metal-oxide nanoparticles and their catalytic and photoluminescence performances. We have described the principles of solvothermal processing by classifying solvothermal methods according to the type of solvent used as follows: alcohol, vicinal glycol and 1,4-butanediol. (1) Solvothermal reaction of metallic cerium in alcohol yields a colloidal solution containing CeO 2 nanoparticles, and the pore structure of the CeO 2 coagulate can be controlled by the choice of bases added to the colloidal solution. Furthermore, the solvothermally synthesized CeO 2 nanoparticles show good redox properties and an improved performance as a catalyst support in the selective oxidation of benzyl alcohol to benzaldehyde. (2) Solvothermal method in vicinal glycol produces an inorganicorganic composite, which is an effective precursor for the synthesis of metal-oxide nanoparticles. Nb 2 O 5 nanoparticles synthesized via a solvothermal reaction in ethylene glycol show high activities as photocatalysts for the selective oxidation of alcohol. (3) Solvothermal reactions in 1,4-butanediol can yield various mixed oxides directly. Mn-modified hexagonal YbFeO 3 synthesized by the solvothermal method has a higher catalytic activity for hydrocarbon combustion when compared to noble metal catalysts.

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Noble Metal Ionic Catalysts

Cited by 318 publications

References 61 publications

Surface sites on Pt–CeO₂mixed oxide catalysts probed by CO adsorption: a synchrotron radiation photoelectron spectroscopy study

Surface sites on Pt–CeO₂mixed oxide catalysts probed by CO adsorption: a synchrotron radiation photoelectron spectroscopy study

Noble metal ion-substituted ceria as efficient oxygen storage catalysts for clean combustion of fuels

Synthesis of metal oxides with improved performance using a solvothermal method

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Noble Metal Ionic Catalysts

Cited by 318 publications

References 61 publications

Surface sites on Pt–CeO2mixed oxide catalysts probed by CO adsorption: a synchrotron radiation photoelectron spectroscopy study

Surface sites on Pt–CeO2mixed oxide catalysts probed by CO adsorption: a synchrotron radiation photoelectron spectroscopy study

Noble metal ion-substituted ceria as efficient oxygen storage catalysts for clean combustion of fuels

Synthesis of metal oxides with improved performance using a solvothermal method

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Product

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Surface sites on Pt–CeO₂mixed oxide catalysts probed by CO adsorption: a synchrotron radiation photoelectron spectroscopy study

Surface sites on Pt–CeO₂mixed oxide catalysts probed by CO adsorption: a synchrotron radiation photoelectron spectroscopy study