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Literature DB >> 11896271

Atom-resolved imaging of dynamic shape changes in supported copper nanocrystals.

Poul L Hansen¹, Jakob B Wagner, Stig Helveg, Jens R Rostrup-Nielsen, Bjerne S Clausen, Henrik Topsøe.

Abstract

In situ transmission electron microscopy is used to obtain atom-resolved images of copper nanocrystals on different supports. These are catalysts for methanol synthesis and hydrocarbon conversion processes for fuel cells. The nanocrystals undergo dynamic reversible shape changes in response to changes in the gaseous environment. For zinc oxide-supported samples, the changes are caused both by adsorbate-induced changes in surface energies and by changes in the interfacial energy. For copper nanocrystals supported on silica, the support has negligible influence on the structure. Nanoparticle dynamics must be included in the description of catalytic and other properties of nanomaterials. In situ microscopy offers possibilities for obtaining the relevant atomic-scale insight.

Entities: Chemical Disease

Year: 2002 PMID： 11896271 DOI： 10.1126/science.1069325

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

50 in total

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4. Charge Transfer Stabilization of Late Transition Metal Oxide Nanoparticles on a Layered Niobate Support.

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5. Counting electrons on supported nanoparticles.

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Atom-resolved imaging of dynamic shape changes in supported copper nanocrystals.

1. Cu nanocrystal growth on peptide nanotubes by biomineralization: size control of Cu nanocrystals by tuning peptide conformation.

2. Nanometric chemical clocks.

3. Discovery of a Ni-Ga catalyst for carbon dioxide reduction to methanol.

4. Charge Transfer Stabilization of Late Transition Metal Oxide Nanoparticles on a Layered Niobate Support.

5. Counting electrons on supported nanoparticles.

Review 6. Towards the computational design of solid catalysts.

7. Size-dependent dynamic structures of supported gold nanoparticles in CO oxidation reaction condition.

8. Visualization of oscillatory behaviour of Pt nanoparticles catalysing CO oxidation.

9. Renal clearance and degradation of glutathione-coated copper nanoparticles.

10. Synthesis of phase-pure and monodisperse iron oxide nanoparticles by thermal decomposition.