Interrogating the role of seeds in seed-mediated growth by the symmetry-based kinematic theory

•The symmetry-based kinematic theory well explains the shape evolutions.•Seeds don’t play the most essential role in the seed-mediated growth.•The growth habit that depends on the conditions plays the most essential role.•The nanoparticle symmetry can be manipulated by the growth habit. Seed-mediate...

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Bibliographic Details
Published in:Journal of crystal growth 2022-12, Vol.599, p.126896, Article 126896
Main Authors: Ni, Bing, Cölfen, Helmut
Format: Article
Language:English
Subjects:
A1. Crystal morphology
A1. Growth models
A1. Nanostructures
A2. Seed crystals
A2. Single crystal growth
B1. Metals
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Summary:•The symmetry-based kinematic theory well explains the shape evolutions.•Seeds don’t play the most essential role in the seed-mediated growth.•The growth habit that depends on the conditions plays the most essential role.•The nanoparticle symmetry can be manipulated by the growth habit. Seed-mediated growth methods have been widely adopted to fabricate nanoparticles (NPs) with uniform shapes and narrow size distributions. Here we systematically investigate the role of seeds to the final morphologies by studying the shape evolution of mini Au nanorods (NRs, 11.6 nm in length and 3.7 nm in width) in different growth environments from the perspective of the symmetry-based kinematic theory (SBKT). The SBKT emphasizes more the crystal growth processes than the thermodynamic stability of the final structures. According to the SBKT, it is the growth habit of the growing nanoparticles depending on the reaction systems, but not the seeds themselves, that dominates the shape evolution. The growth habits mainly include the preferential growth directions (PGDs) and the properties of the kinematic waves. The results overall supported that (1) if the growth habit was not significantly changed, the NP symmetry could be maintained and the monodispersity of the final products would increase; (2) if the growth habit has changed a lot, the NR symmetry could be maintained under conditions with significant coherent growth; (3) otherwise, the NR symmetry would be repaired to that of the lattice.
ISSN:0022-0248
1873-5002
DOI:10.1016/j.jcrysgro.2022.126896