Tianpin Wu scite author profile

The catalytic activity of metal clusters of different sizes adsorbed on oxide surfaces can be explored systematically by using model catalysts. We studied the temperature-programmed reaction of CO with O2 catalyzed by Pd clusters (Pd(n), for n = 1, 2, 4, 7, 10, 16, 20, and 25) that were size-selected in the gas phase and deposited on rutile TiO2(110). X-ray photoemission spectroscopy revealed that the Pd 3d binding energy varied nonmonotonically with cluster size and that the changes correlated with strong size variations in CO oxidation activity. Taking final-state effects into account, low activity was correlated with higher-than-expected Pd 3d binding energy, which is attributed to a particularly stable valence electronic structure; electron transfer from the TiO2 support to the Pd clusters also occurs. Ion scattering shows that small clusters form single-layer islands on the surface and that formation of a second layer begins to occur for clusters larger than Pd10.

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Dissolution, migration, and deposition of transition metal ions in Li-ion batteries exemplified by Mn-based cathodes – a critical review

Zhan

Lü

et al. 2018

Energy Environ. Sci.

659

616

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Diffusion-free Grotthuss topochemistry for high-rate and long-life proton batteries

et al. 2019

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Mn(II) deposition on anodes and its effects on capacity fade in spinel lithium manganate–carbon systems

et al. 2013

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Dissolution and migration of manganese from cathode lead to severe capacity fading of lithium manganate-carbon cells. Overcoming this major problem requires a better understanding of the mechanisms of manganese dissolution, migration and deposition. Here we apply a variety of advanced analytical methods to study lithium manganate cathodes that are cycled with different anodes. We show that the oxidation state of manganese deposited on the anodes is +2, which differs from the results reported earlier. Our results also indicate that a metathesis reaction between Mn(II) and some species on the solid-electrolyte interphase takes place during the deposition of Mn(II) on the anodes, rather than a reduction reaction that leads to the formation of metallic Mn, as speculated in earlier studies. The concentration of Mn deposited on the anode gradually increases with cycles; this trend is well correlated with the anodes rising impedance and capacity fading of the cell.

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Supported Cobalt Polyphthalocyanine for High-Performance Electrocatalytic CO2 Reduction

Han

Wang

et al. 2017

Chem

430

360

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CO Oxidation on Au_n/TiO₂ Catalysts Produced by Size-Selected Cluster Deposition

et al. 2004

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Planar model catalysts were prepared by deposition of size-selected gold clusters containing up to seven atoms on rutile TiO2 (110). Molecular oxygen is observed to bind inefficiently to the surface, probably at oxygen vacancies, and some oxygen also appears to bind to the gold clusters. Stable CO binding is observed atop gold for catalysts prepared by Au and Au2 deposition, but not for larger Aun. CO oxidation activity is strongly dependent on cluster size, with Au7-prepared samples >50 times more reactive than samples prepared by Au or Au2 deposition

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Burning lithium in CS2 for high-performing compact Li2S–graphene nanocapsules for Li–S batteries

et al. 2017

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Tianpin Wu

Electrochemical reduction of nitrate to ammonia via direct eight-electron transfer using a copper–molecular solid catalyst

Electronic Structure Controls Reactivity of Size-Selected Pd Clusters Adsorbed on TiO ₂ Surfaces

Dissolution, migration, and deposition of transition metal ions in Li-ion batteries exemplified by Mn-based cathodes – a critical review

Diffusion-free Grotthuss topochemistry for high-rate and long-life proton batteries

Mn(II) deposition on anodes and its effects on capacity fade in spinel lithium manganate–carbon systems

Supported Cobalt Polyphthalocyanine for High-Performance Electrocatalytic CO2 Reduction

CO Oxidation on Au_n/TiO₂ Catalysts Produced by Size-Selected Cluster Deposition

Burning lithium in CS2 for high-performing compact Li2S–graphene nanocapsules for Li–S batteries

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Tianpin Wu

Electrochemical reduction of nitrate to ammonia via direct eight-electron transfer using a copper–molecular solid catalyst

Electronic Structure Controls Reactivity of Size-Selected Pd Clusters Adsorbed on TiO 2 Surfaces

Dissolution, migration, and deposition of transition metal ions in Li-ion batteries exemplified by Mn-based cathodes – a critical review

Diffusion-free Grotthuss topochemistry for high-rate and long-life proton batteries

Mn(II) deposition on anodes and its effects on capacity fade in spinel lithium manganate–carbon systems

Supported Cobalt Polyphthalocyanine for High-Performance Electrocatalytic CO2 Reduction

CO Oxidation on Aun/TiO2 Catalysts Produced by Size-Selected Cluster Deposition

Burning lithium in CS2 for high-performing compact Li2S–graphene nanocapsules for Li–S batteries

Contact Info

Product

Resources

About

Electronic Structure Controls Reactivity of Size-Selected Pd Clusters Adsorbed on TiO ₂ Surfaces

CO Oxidation on Au_n/TiO₂ Catalysts Produced by Size-Selected Cluster Deposition