Growth and structural stability of well-ordered PdZn alloy nanoparticles

Penner, Simon; Jenewein, Bernd; Gabasch, Harald; Klötzer, Bernhard; Wang, Di; Knop‐Gericke, Axel; Schlögl, Robert; Hayek, K.

doi:10.1016/j.jcat.2006.04.005

Cited by 78 publications

(49 citation statements)

References 32 publications

(30 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…In practice, it has been shown that a transition from metal particles, which consist of one component that is in contact with an oxidic support, toward supported bimetallic phases can be induced by pre-treatment with a reductive catalyst. [1,[31][32][33][34][35][36][37][38][39][40][41][42] In specific cases (e.g. PdÀZn catalysts), even a highly ordered bimetallic compound can be formed by reduction in H 2 , which may be a necessary prerequisite for the most selective and active state of the respective catalyst.…”

Section: And Comentioning

confidence: 99%

From Oxide‐Supported Palladium to Intermetallic Palladium Phases: Consequences for Methanol Steam Reforming

et al. 2013

View full text Add to dashboard Cite

This Minireview summarizes the fundamental results of a comparative inverse-model versus real-model catalyst approach toward methanol steam reforming (MSR) on the highly CO₂-selective H₂-reduced states of supported Pd/ZnO, Pd/Ga₂O3, and Pd/In₂O3 catalysts. Our model approach was extended to the related Pd/GeO₂ and Pd/SnO₂ systems, which showed previously unknown MSR performance. This approach allowed us to determine salient CO₂-selectivity-guiding structural and electronic effects on the molecular level, to establish a knowledge-based approach for the optimization of CO₂ selectivity. Regarding the inverse-model catalysts, in situ X-ray photoelectron spectroscopy (in situ XPS) studies on near-surface intermetallic PdZn, PdGa, and PdIn phases (NSIP), as well as bulk Pd₂Ga, under realistic MSR conditions were performed alongside catalytic testing. To highlight the importance of a specifically prepared bulk intermetallic[BOND]oxide interface, unsupported bulk intermetallic compounds of Pd_xGa_y were chosen as additional MSR model compounds, which allowed us to clearly deduce, for example, the water-activating role of the special Pd₂Ga-β-Ga₂O₃ intermetallic[BOND]oxide interaction. The inverse-model studies were complemented by their related “real-model” experiments. Structure–activity and structure–selectivity correlations were performed on epitaxially ordered PdZn, Pd₅Ga₂, PdIn, Pd₃Snv, and Pd₂Ge nanoparticles that were embedded in thin crystalline films of their respective oxides. The reductively activated “thin-film model catalysts” that were prepared by sequential Pd and oxide deposition onto NaCl(001) exhibited the required large bimetal[BOND]oxide interface and the highly epitaxial ordering that was required for (HR)TEM studies and for identification of the structural and catalytic (bi)metal[BOND]support interactions. To fully understand the bimetal[BOND]support interactions in the supported systems, our studies were extended to the MeOH- and formaldehyde-reforming properties of the clean supporting oxides. From a direct comparison of the “isolated” MSR performance of the purely bimetallic surfaces to that of the “isolated” oxide surfaces and of the “bimetal[BOND]oxide contact” systems, a pronounced “bimetal[BOND]oxide synergy” toward optimum CO2 activity/selectivity was most evident. Moreover, the system-specific mechanisms that led to undesired CO formation and to spoiling of the CO2 selectivity could be extracted

show abstract

Section: And Comentioning

confidence: 99%

From Oxide‐Supported Palladium to Intermetallic Palladium Phases: Consequences for Methanol Steam Reforming

et al. 2013

View full text Add to dashboard Cite

show abstract

“…Apart from advanced copper-based catalysts, [1,2] special attention is presently paid to the highly MSR-selective reduced state of Pd/ZnO, [3] containing a particularily stable intermetallic PdZn (1:1) active phase. [3,4] Therefore, we recently studied related "inverse" near-surface PdZn intermetallic phases, showing that three-dimensional PdZn active site ensembles are equally important for selective dehydrogenation of methanol (thus avoiding CO) and for efficient water activation. [5] For the less costly Cu/ZnO catalysts, originally designed for methanol synthesis, improvements towards a technical MSR application regarding sintering stability, pyrophoricity, and selectivity are still required.…”

mentioning

confidence: 99%

Hydrogen Production by Methanol Steam Reforming on Copper Boosted by Zinc‐Assisted Water Activation

et al. 2012

View full text Add to dashboard Cite

show abstract

“…Um die technischen Probleme und Risiken zu vermeiden, die mit der Benutzung, Lagerung und dem Transport von Wasserstoff verbunden sind, bietet sich Methanol als praktischer und verfügbarer Energieträger für die Bereitstellung von H 2 an. [3,4] Aus diesem Grund haben wir kürzlich "inverse" oberflächennahe intermetallische PdZn-Phasen studiert und gezeigt, dass dreidimensionale aktive/selektive PdZn-Ensembles sowohl die selektive Dehydrierung von Methanol steuern (wodurch die Produktion von CO verhindert wird) als auch eine effektive Wasseraktivierung bewirken. Wasserstoff kann durch die katalytische Methanoldampfreformierung (MSR) aus Methanol erzeugt werden: CH 3 OH + H 2 O!CO 2 + 3 H 2 .…”

unclassified

“…hat aktuell auch der hoch MSRaktive reduzierte Zustand von Pd/ZnO, [3] mit einer speziell stabilen intermetallischen 1:1-PdZn-Phase, Aufmerksamkeit erregt. [3,4] Aus diesem Grund haben wir kürzlich "inverse" oberflächennahe intermetallische PdZn-Phasen studiert und gezeigt, dass dreidimensionale aktive/selektive PdZn-Ensembles sowohl die selektive Dehydrierung von Methanol steuern (wodurch die Produktion von CO verhindert wird) als auch eine effektive Wasseraktivierung bewirken. [5] Die billigeren Cu/ZnO-Katalysatoren, ursprünglich für die Metha-nolsynthese entwickelt, bedürfen noch einiger Verbesserungen in Bezug auf Sinterstabilität, Selbstentzündung und Selektivität, um für die technische Reformieranwendung geeignet zu sein.…”

unclassified

Steigerung der Wasserstoffproduktion in der Methanol‐Dampfreformierung auf Kupfer durch Zink‐unterstützte Wasseraktivierung

et al. 2012

View full text Add to dashboard Cite

Eine oberflächennahe Zn/Cu-Legierung, die von einer dünnen Lage Zn(ox) benetzt wird, ist der aktivste Zustand eines inversen CuZn-Katalysators. Die bifunktionelle Arbeitsweise der gemischten Cu(Zn)0/Zn(ox)-Oberfläche kombiniert die selektive Dehydrierung von Methanol zu CH2O mit einer optimierten Wasseraktivierung, die die Quelle von Sauerstoff für die Totaloxidation von CH2O zu CO2 bereitstellt

show abstract

Growth and structural stability of well-ordered PdZn alloy nanoparticles

Cited by 78 publications

References 32 publications

From Oxide‐Supported Palladium to Intermetallic Palladium Phases: Consequences for Methanol Steam Reforming

From Oxide‐Supported Palladium to Intermetallic Palladium Phases: Consequences for Methanol Steam Reforming

Hydrogen Production by Methanol Steam Reforming on Copper Boosted by Zinc‐Assisted Water Activation

Steigerung der Wasserstoffproduktion in der Methanol‐Dampfreformierung auf Kupfer durch Zink‐unterstützte Wasseraktivierung

Contact Info

Product

Resources

About