Adhesion and Atomic Structures of Gold on Ceria Nanostructures: The Role of Surface Structure and Oxidation State of Ceria Supports

Lin, Yanqing; Wu, Zili; Wen, Jianguo; Ding, Keqiang; Yang, Xiu-yu; Poeppelmeier, Kenneth R.; Marks, Laurence D.

doi:10.1021/acs.nanolett.5b02694

Cited by 102 publications

(102 citation statements)

References 61 publications

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“…Therefore, by carefully engineering the interfacial bonding between metal NPs and the support, one can enhance the stability/sintering-resistance of supported metal catalysts [24] . Heteroepitaxy, the oriented growth of one crystal/film on another with fixed crystallographic orientation relationship, has been extensively studied [25] and widely applied in semiconductor industry [26] .…”

Section: Introductionmentioning

confidence: 99%

Highly active and sintering-resistant heteroepitaxy of Au nanoparticles on ZnO nanowires for CO oxidation

Liu

Qiao

Song

et al. 2016

Journal of Energy Chemistry

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Section: Introductionmentioning

confidence: 99%

Highly active and sintering-resistant heteroepitaxy of Au nanoparticles on ZnO nanowires for CO oxidation

Liu

Qiao

Song

et al. 2016

Journal of Energy Chemistry

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“…In contrast to small chemical molecules, nanosized particles with larger volumetric specific surface area are more reactive. 18,19 The dimension, shape, surface charge, and coating can all contribute to the overall toxicity of NPs. [20][21][22][23] To exploit realistic applications of Au NCs, all these factors should be taken into account and studied carefully to ensure the potential side effects on humans are minimized.…”

Section: Introductionmentioning

confidence: 99%

Effects of surface charges of gold nanoclusters on long-term in vivo biodistribution, toxicity, and cancer radiation therapy

Wang

Chen

Yang

et al. 2016

IJN

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Gold nanoclusters (Au NCs) have exhibited great advantages in medical diagnostics and therapies due to their efficient renal clearance and high tumor uptake. The in vivo effects of the surface chemistry of Au NCs are important for the development of both nanobiological interfaces and potential clinical contrast reagents, but these properties are yet to be fully investigated. In this study, we prepared glutathione-protected Au NCs of a similar hydrodynamic size but with three different surface charges: positive, negative, and neutral. Their in vivo biodistribution, excretion, and toxicity were investigated over a 90-day period, and tumor uptake and potential application to radiation therapy were also evaluated. The results showed that the surface charge greatly influenced pharmacokinetics, particularly renal excretion and accumulation in kidney, liver, spleen, and testis. Negatively charged Au NCs displayed lower excretion and increased tumor uptake, indicating a potential for NC-based therapeutics, whereas positively charged clusters caused transient side effects on the peripheral blood system.

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“…Among the examined materials cerium oxide is also reducible and the same effect, a considerable drop in the capacity after the H2 treatment is also observed when this material is the support. It may suggest that the drop in the capacity can be associated with the SMSI effect in the latter case as well [27]. Interestingly, it is also these two sorbents (Mn15-CeO2, Mn15-TiO2) that show the "pre-breakthrough" feature in their sorption characteristic (Fig.…”

Section: Mno-support + H2s ↔ Mns-support + H2omentioning

confidence: 88%

Performance of Mn-based H2S sorbents in dry, reducing atmosphere – Manganese oxide support effects

Chytil

Kure

Lødeng

et al. 2017

Fuel

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Abstract:High temperature H2S sorbents comprising manganese oxide (15 wt. %) supported on TiO2, ZrO2, CeO2 and Al2O3 were prepared by wet impregnation using Mn(NO3)2.4H2O as Mn precursor. Upon activation in H2, the sorbent performance testing was conducted at 650 °C in a model gas mixture with a composition of 0.4 vol. % of H2S in 40 vol. % of H2, the balance being inert gas (N2 and Ar).Sorbent regeneration was performed at 650 °C with 5.2 vol. % of O2 in N2. The initial sorption performance is first reported for the parent (Mn-free) supports showing a considerable H2S sorption on ZrO2 and CeO2 and a minor sorption on Al2O3 and TiO2. The Mn sorbents were subject to 13 sorption/regeneration cycles. The highest initial sorption capacity is reported for cerium supported Mn oxide, which is also the sample that deactivates most. A prolonged exposure to H2 at 650 °C results in a reversible loss of the sorption capacity that was observed for all the samples except for Mn on zirconia suggesting its superior stability in H2.

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Adhesion and Atomic Structures of Gold on Ceria Nanostructures: The Role of Surface Structure and Oxidation State of Ceria Supports

Cited by 102 publications

References 61 publications

Highly active and sintering-resistant heteroepitaxy of Au nanoparticles on ZnO nanowires for CO oxidation

Highly active and sintering-resistant heteroepitaxy of Au nanoparticles on ZnO nanowires for CO oxidation

Effects of surface charges of gold nanoclusters on long-term in vivo biodistribution, toxicity, and cancer radiation therapy

Performance of Mn-based H2S sorbents in dry, reducing atmosphere – Manganese oxide support effects

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