| Literature DB >> 32428349 |
Jonathan Quinson1, Sarah Neumann2, Laura Kacenauskaite1, Jan Bucher3, Jacob J K Kirkensgaard4, Søren B Simonsen5, Luise Theil Kuhn5, Alessandro Zana3, Tom Vosch1, Mehtap Oezaslan6,7, Sebastian Kunz2,8, Matthias Arenz3.
Abstract
Understanding the formation of nanoparticles (NPs) is key to develop materials by sustainable routes. The Co4CatTM process is a new synthesis of precious metal NPs in alkaline mono-alcohols well-suited to develop active nanocatalysts. The synthesis is 'facile', surfactant-free and performed under mild conditions like low temperature. The reducing properties of the solvent are here shown to strongly influence the formation of Pt NPs. Based on the in situ formation of CO adsorbed on the NP surface by solvent oxidation, a model is proposed that accounts for the different growth and stabilization mechanisms as well as re-dispersion properties of the surfactant-free NPs in different solvents. Using in situ and ex situ characterizations, it is established that in methanol, a slow nucleation with a limited NP growth is achieved. In ethanol, a fast nucleation followed by continuous and pronounced particle sintering occurs.Entities:
Keywords: Co4Cat technology; colloids; nanoparticles; surfactant-free; synthesis
Year: 2020 PMID: 32428349 DOI: 10.1002/chem.202001553
Source DB: PubMed Journal: Chemistry ISSN: 0947-6539 Impact factor: 5.236