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Chain length of bioinspired polyamines affects size and condensation of monodisperse silica particles. | LitMetric

Chain length of bioinspired polyamines affects size and condensation of monodisperse silica particles.

Commun Chem

Laboratory of Physical Chemistry, Department of Chemical Engineering and Chemistry & Institute for Complex Molecular Systems, Eindhoven University of Technology, P.O. Box 513, 5600 MB, Eindhoven, The Netherlands.

Published: November 2021

AI Article Synopsis

  • Polyamines are crucial for biosilicification in diatoms and sponges, but their chain length's effect on silica particle growth has not been fully understood.* -
  • The study examines how varying polyamine chain lengths influence the growth and condensation of silica particles in a controlled, salt-free environment using tetraethyl orthosilicate.* -
  • Findings indicate that longer polyamine chains result in larger silica particle diameters, while silica condensation decreases, suggesting a coacervate intermediate in the growth process and a core-shell structure in the final particles.*

Article Abstract

Polyamines play a major role in biosilicification reactions in diatoms and sponges. While the effects of polyamines on silicic acid oligomerization and precipitation are well known, the impact of polyamines chain length on silica particle growth is unclear. We studied the effects of polyamine chain length on silica particle growth and condensation in a known, simple, and salt-free biphasic reaction system; with tetraethyl orthosilicate as organic phase and polyamine dissolved in the aqueous phase. The particles at various growth stages were characterized by Cryo- Transmission Electron Microscopy, Scanning Electron Microscopy, Thermogravimetric Analysis, Zeta Potential, and solid-state NMR analysis. Polyamines were found co-localized within silica particles and the particle diameter increased with an increase in polyamine chain length, whereas silica condensation showed the opposite trend. Particle growth is proposed to progress via a coacervate intermediate while the final particles have a core shell structure with an amine-rich core and silica-rich shell. The results presented in this paper would of interest for researchers working in the field of bioinspired materials.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9814531PMC
http://dx.doi.org/10.1038/s42004-021-00595-yDOI Listing

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