Controlling nanoparticle placement in Au/TiO2 inverse opal photocatalysts
Publication date
2024-06-19
Authors
Bijl, Marianne
Lim, Kang Rui Garrick
Garg, Sadhya
Nicolas, Natalie J.
Visser, Nienke L.
Aizenberg, Michael
van der Hoeven, Jessi E S
Aizenberg, Joanna
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Document Type
Article
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Abstract
Gold nanoparticle-loaded titania (Au/TiO2) inverse opals are highly ordered three-dimensional photonic structures with enhanced photocatalytic properties. However, fine control over the placement of the Au nanoparticles in the inverse opal structures remains challenging with traditional preparative methods. Here, we present a multi-component co-assembly strategy to prepare high-quality Au/TiO2 inverse opal films in which Au nanoparticles are either located on, or inside the TiO2 matrix, as verified using electron tomography. We report that Au nanoparticles embedded in the TiO2 support exhibit enhanced thermal and mechanical stability compared to non-embedded nanoparticles that are more prone to both leaching and sintering.
Keywords
General Materials Science
Citation
Bijl, M, Lim, K R G, Garg, S, Nicolas, N J, Visser, N L, Aizenberg, M, van der Hoeven, J E S & Aizenberg, J 2024, 'Controlling nanoparticle placement in Au/TiO 2 inverse opal photocatalysts', Nanoscale, vol. 16, no. 29, pp. 13867-13873. https://doi.org/10.1039/d4nr01200c