Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry

Alec P. LaGrow; Tabot M.D. Besong; Noktan M. AlYami; Khabiboulakh Katsiev; Dalaver H. Anjum; Ahmed Abdelkader; Pedro M.F.J. Costa; Victor M. Burlakov; Alain Goriely; Osman M. Bakr

Journal Article

Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry

Chemical Communications (2017) 53(16) 2495-2498

DOI: 10.1039/c6cc08369b

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Abstract

Continuous flow chemistry is used to trap the nucleation and growth stages of platinum-nickel nano-octahedra with second time resolution and high throughputs to probe their properties ex situ. The growth starts from poorly crystalline particles (nucleation) at 5 seconds, to crystalline 1.5 nm particles bounded by the {111}-facets at 7.5 seconds, followed by truncation and further growth to octahedral nanoparticles at 20 seconds.

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LaGrow, A. P., Besong, T. M. D., AlYami, N. M., Katsiev, K., Anjum, D. H., Abdelkader, A., … Bakr, O. M. (2017). Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry. Chemical Communications, 53(16), 2495–2498. https://doi.org/10.1039/c6cc08369b

Trapping shape-controlled nanoparticle nucleation and growth stages via continuous-flow chemistry

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