Matteo Aramini scite author profile

The three-dimensional (3D) distribution of individual atoms on the surface of catalyst nanoparticles plays a vital role in their activity and stability. Optimising the performance of electrocatalysts requires atomic-scale information, but it is difficult to obtain. Here, we use atom probe tomography to elucidate the 3D structure of 10 nm sized Co2FeO4 and CoFe2O4 nanoparticles during oxygen evolution reaction (OER). We reveal nanoscale spinodal decomposition in pristine Co2FeO4. The interfaces of Co-rich and Fe-rich nanodomains of Co2FeO4 become trapping sites for hydroxyl groups, contributing to a higher OER activity compared to that of CoFe2O4. However, the activity of Co2FeO4 drops considerably due to concurrent irreversible transformation towards CoIVO2 and pronounced Fe dissolution. In contrast, there is negligible elemental redistribution for CoFe2O4 after OER, except for surface structural transformation towards (FeIII, CoIII)2O3. Overall, our study provides a unique 3D compositional distribution of mixed Co-Fe spinel oxides, which gives atomic-scale insights into active sites and the deactivation of electrocatalysts during OER.

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Hydrogen Sorption in Li₁₂C₆₀

Mauron

Gaboardi

Remhof

et al. 2013

J. Phys. Chem. C

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The lithium-intercalated fulleride Li 12 C 60 was investigated in view of a lightweight hydrogen storage material due to the low molecular weight of its constituents. Deuterium (D 2 ) absorption in Li 12 C 60 shows an uptake of up to 9.5 mass % D 2 (equivalent to ∼5 mass % H 2 for the same stoichiometry). Under a pressure of 190 bar the onset of absorption was observed at a temperature below 100 °C, which is 200 °C lower than that for pure C 60 . Deuterium desorption was investigated by in-situ neutron powder diffraction, and at a pressure of 1 bar desorption was observed above 300 °C. The ab/desorption is accompanied by a partial de/reintercalation of lithium, observed by the appearance and disappearance of LiD reflections after absorption and during desorption, respectively. A minor part of deuterium is present in ionic form in LiD, and the major part is covalently bound in a Li-depleted compound Li 12−x C 60 D 36+y .

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Li12C60: A lithium clusters intercalated fulleride

Giglio

Pontiroli

Gaboardi

et al. 2014

Chemical Physics Letters

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Ionic conductivity in the Mg intercalated fullerene polymer Mg2C60

Pontiroli

Aramini

Gaboardi

et al. 2013

Carbon

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Matteo Aramini

Reversible hydrogen absorption in sodium intercalated fullerenes

3D atomic-scale imaging of mixed Co-Fe spinel oxide nanoparticles during oxygen evolution reaction

Hydrogen Sorption in Li₁₂C₆₀

Li12C60: A lithium clusters intercalated fulleride

Ionic conductivity in the Mg intercalated fullerene polymer Mg2C60

Contact Info

Product

Resources

About

Matteo Aramini

Reversible hydrogen absorption in sodium intercalated fullerenes

3D atomic-scale imaging of mixed Co-Fe spinel oxide nanoparticles during oxygen evolution reaction

Hydrogen Sorption in Li12C60

Li12C60: A lithium clusters intercalated fulleride

Ionic conductivity in the Mg intercalated fullerene polymer Mg2C60

Contact Info

Product

Resources

About

Hydrogen Sorption in Li₁₂C₆₀