Reactivity of Fe-binuclear complexes in over-exchanged Fe/ZSM5, studied by in situ XAFS spectroscopy Part 1: Heat treatment in He and O2

Battiston, A.A.; Bitter, Johannes H.; Heijboer, Willem M.; Groot, Frank M. F. de; Koningsberger, D.C.

doi:10.1016/s0021-9517(02)00188-4

Cited by 69 publications

(25 citation statements)

References 45 publications

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“…EXAFS analysis showed that in samples containing the lowest Fe concentrations, the Fe-Fe coordination number is low, and consistent with diiron species that have been suggested in previous studies [21][22][23][24][25] DFT calculations were employed to simulate model diiron species which could be compared to the EXAFS data. Of the several possible alternatives a close match was obtained for a diiron complex containing two octahedral Fe 3+ centres: [Fe2(μ2-OH)2(OH)2(H2O)2] 2+ .…”

Section: Methane Conversion With Zeolite Catalystssupporting

confidence: 75%

Methane Activation by Selective Oxidation

Hutchings

2016

Top Catal

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Section: Methane Conversion With Zeolite Catalystssupporting

confidence: 75%

Methane Activation by Selective Oxidation

Hutchings

2016

Top Catal

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“…Since the heterogeneous catalysis is a surface phenomenon, its efficiency is determined by both chemical composition and catalyst surface structure. Generally, nanostructured oxide compounds are used [2,[11][12][13] obtained by various procedures [11,12,14,15]. The nanostructure is the one which provides a large specific surface area and a superior catalyst reactivity [15].…”

Section: Introductionmentioning

confidence: 99%

“…Generally, nanostructured oxide compounds are used [2,[11][12][13] obtained by various procedures [11,12,14,15]. The nanostructure is the one which provides a large specific surface area and a superior catalyst reactivity [15]. Generally, a nanoparticle possesses a single phase crystalline core and a shell with altered crystalline structure and with several secondary phases, having a composition different from that of the core.…”

Section: Introductionmentioning

confidence: 99%

Nanostructured Perovskites for Catalytic Combustion

Doroftei¹

2019

Nanostructures in Energy Generation, Transmission and Storage

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Until recently, for reducing the environment pollution, the combustion catalysts based on noble metals was considered the most active, practically irreplaceable. Their high cost, high thermal instability, high sensitivity to deactivation and to the attack of some harmful elements or compounds determine the intensification of studies to replace them with new cheaper and stable catalysts. Numerous experimental data from literature indicate that the semiconductive oxidic compounds can compete with combustion catalysts based on noble metals from catalytic activity standpoint. Recent studies led to the realization of remarkable catalytic activity at moderate (350-600°C) and high (over 600°C) temperatures at some oxidic perovskite compounds, which contain transition metals. In this study are presented a series of nanostructured oxidic compounds with perovskite structure, based on transition metals and synthesized by the precursor method of self-combustion, using polyvinyl alcohol as colloidal medium, for catalytic combustion of some volatile organic compounds at low (50-350°C) and moderate temperatures. The catalytic activity of the perovskite compounds in the total oxidation reactions of the gases is largely determined by the amount of weakly bound surface oxygen species which in turn depends on the presence of oxygen vacancies.

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“…Fe/ZSM-5 [1,[25][26][27][28][29], Fe/MCM-41 [30] and Fe/Al 2 O 3 [31,32], is often modelled by using bulk oxides such as α-Fe 2 O 3 neglecting the interaction of Fe with the support. As a consequence, large and strongly varying correction terms (such as the ΔE 0 ) are required to obtain a statistically reliable EXAFS fit.…”

Section: Introductionmentioning

confidence: 99%