Effect of Pt Deposits on TiO₂ Electrocatalytic Activity Highlighted by Electron Tomography

Abstract: Characterizing materials at small scales presents major challenges in the engineering of nanocomposite materials having a high specific surface area. Here, we show the application of electron tomography to describe the three-dimensional structure of highly ordered TiO2 nanotube arrays modified with Pt nanoparticles. The titanium oxide nanotubes were prepared by the electrochemical anodization of a Ti substrate after which Pt was deposited by magnetron sputtering. Such a composite shows high electrochemical act… Show more

“…Geerts et al used 3D electron tomography to reveal core-shell structure of alumina supports, confirming an average distribution of ultra-small Pt nanoparticles ( Geerts et al, 2021 ). Mariusz et al studied how the 3D structures of Pt-loaded TiO 2 nanotube arrays affected the formic acid electro-oxidation activity ( Andrzejczuk et al, 2019 ). It was found by 3D electron tomography that larger nanotubes with higher porosity led to better dispersion of Pt, which was further correlated to excellent electrocatalytic performance.…”

Recent Progress on Revealing 3D Structure of Electrocatalysts Using Advanced 3D Electron Tomography: A Mini Review

“…Geerts et al used 3D electron tomography to reveal core-shell structure of alumina supports, confirming an average distribution of ultra-small Pt nanoparticles ( Geerts et al, 2021 ). Mariusz et al studied how the 3D structures of Pt-loaded TiO 2 nanotube arrays affected the formic acid electro-oxidation activity ( Andrzejczuk et al, 2019 ). It was found by 3D electron tomography that larger nanotubes with higher porosity led to better dispersion of Pt, which was further correlated to excellent electrocatalytic performance.…”

Recent Progress on Revealing 3D Structure of Electrocatalysts Using Advanced 3D Electron Tomography: A Mini Review

Worm-like Pt nanoparticles anchored on graphene with S, N co-doping and Fe3O4 functionalization for boosting the electrooxidation of methanol

In situ generating Cu₂O/Cu heterointerfaces on the Cu₂O cube surface to enhance interface charge transfer for the Rochow reaction