Unraveling the Principles of Lattice Disorder Degree of Bi₂B₂O₇ (B = Sn, Ti, Zr) Compounds on Activating Gas Phase O₂ for Soot Combustion

Abstract: With the combination of experimental methods and DFT calculations, the influence of lattice disorder degree on the catalytic property of Bi2B2O7 compounds with different B-site cations (B = Sn, Ti, Zr) has been elucidated in this work. The crystal structures of the samples vary from a well-ordered pyrochlore (Bi2Sn2O7) to a less-ordered pyrochlore (Bi2Ti2O7), and eventually to a disordered defect fluorite (Bi2Zr2O7) phase, hence the lattice disorder degree increases. DFT calculation and oxygen ion conductivity… Show more

“…In addition, pure Pr 2 Sn 2 O 7 has much a higher activation energy than the Ru‐modified catalysts, which implies that the properties of the active sites have been changed. Former studies have proved that Pr 2 Sn 2 O 7 , as a pyrochlore compound, possesses inherent oxygen vacancies, which can induce the generation of active surface electrophilic oxygen sites [8b,10] . On pure Pr 2 Sn 2 O 7 , these surface active oxygen sites might play as the major role for toluene oxidation.…”

“…For instance, we have discovered that the surface property as well as the reactivity of pyrochlores can be significantly affected by the crystal structures. A pyrochlore compounds with a higher lattice disorder degree generally possesses better redox property, hence improving the reaction performance of those reactions involving oxidizing process [10] . However, up to date, A 2 B 2 O 7 compounds have been rarely used to support noble metals for VOCs combustion.…”

“…A pyrochlore compounds with a higher lattice disorder degree generally possesses better redox property, hence improving the reaction performance of those reactions involving oxidizing process. [10] However, up to date, A 2 B 2 O 7 compounds have been rarely used to support noble metals for VOCs combustion. Our former studies have demonstrated that Pd supported on a high surface area La 2 Sn 2 O 7 pyrochlore synthesized with a hydrothermal method shows favorable activity for carbon monoxide oxidation, because of the high dispersion of Pd species and the formation of a larger quantity of active surface oxygen sites.…”

Elucidating Ru Distribution State of Ru‐Promoted Pr₂Sn₂O₇ Pyrochlore and its Effect on the Catalytic Performance for Toluene Deep Oxidation

“…In addition, pure Pr 2 Sn 2 O 7 has much a higher activation energy than the Ru‐modified catalysts, which implies that the properties of the active sites have been changed. Former studies have proved that Pr 2 Sn 2 O 7 , as a pyrochlore compound, possesses inherent oxygen vacancies, which can induce the generation of active surface electrophilic oxygen sites [8b,10] . On pure Pr 2 Sn 2 O 7 , these surface active oxygen sites might play as the major role for toluene oxidation.…”

“…For instance, we have discovered that the surface property as well as the reactivity of pyrochlores can be significantly affected by the crystal structures. A pyrochlore compounds with a higher lattice disorder degree generally possesses better redox property, hence improving the reaction performance of those reactions involving oxidizing process [10] . However, up to date, A 2 B 2 O 7 compounds have been rarely used to support noble metals for VOCs combustion.…”

“…A pyrochlore compounds with a higher lattice disorder degree generally possesses better redox property, hence improving the reaction performance of those reactions involving oxidizing process. [10] However, up to date, A 2 B 2 O 7 compounds have been rarely used to support noble metals for VOCs combustion. Our former studies have demonstrated that Pd supported on a high surface area La 2 Sn 2 O 7 pyrochlore synthesized with a hydrothermal method shows favorable activity for carbon monoxide oxidation, because of the high dispersion of Pd species and the formation of a larger quantity of active surface oxygen sites.…”

Elucidating Ru Distribution State of Ru‐Promoted Pr₂Sn₂O₇ Pyrochlore and its Effect on the Catalytic Performance for Toluene Deep Oxidation

“…The MvK mechanism of O L -mediating oxidation is well supported by isotope labelling, as using 18 O 2 as the stoichiometric oxidant will install 18 O in the lattice of the metal oxides. 102 Heating is generally required to activate O L and regenerate O L from O 2 , which can increase cost and make the reaction procedure tedious. The reactivity and regeneration of O L can be tuned by regulating the strength of the M-O bond (M: metal) and the chemical states of the metal, to enable stronger oxidation performance at a lower temperature.…”

“…13c). 102 3.5 Tailoring the reactive oxygen species generation PMS, PDS and H 2 O 2 are strong oxidants but normally have low reaction rates with most organic pollutants. Catalysts bearing transition metal ions (e.g., Fe, Mn, Co, Ni, V, Ce, etc.)…”

Reactive oxygen species on transition metal-based catalysts for sustainable environmental applications

Lead‐Induced Microstrain in Synthesis and Manipulation of Porous Pyrochlore for Boosting Oxygen Evolution Reaction