A simple method for preparation of silica aerogels doped with monodispersed nanoparticles in homogeneous concentration

A simple method for preparation of silica aerogels doped with monodispersed nanoparticles in homogeneous concentration

[Display omitted] •Formation of uniform doped silica aerogel.•The silica coating of the nanoparticles prevents aggregation.•The resulting aerogels preserve the properties of the dopant.•Doping the aerogel does not affect the gelation process.•Multi-doped silica aerogels can be produced. Silica aerog...

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Bibliographic Details
Published in:The Journal of supercritical fluids Vol. 159; p. 104496
Main Authors: Lazovski, Guy, Bar, Galit, Ji, Botao, Atar, Nurit, Banin, Uri, Gvishi, Raz
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2020
Subjects:
Doped silica aerogel
Nanoparticles
Optical properties
Quantum dots
Super critical drying
Nanoparticles
Quantum dots
Super critical drying
Optical properties
Doped silica aerogel
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Summary:[Display omitted] •Formation of uniform doped silica aerogel.•The silica coating of the nanoparticles prevents aggregation.•The resulting aerogels preserve the properties of the dopant.•Doping the aerogel does not affect the gelation process.•Multi-doped silica aerogels can be produced. Silica aerogel is a solid matrix, capable of preserving the unique properties of nanoparticles incorporated in it; forming a macroscopic structure that benefits from nano-metric properties. We developed a simple method for preparation of doped silica aerogels. Dopants are implemented as silica coated nanoparticles suspended in alcohol or alcohol:water mixture. This suspension replaces a portion of the pure solvent in the one-step base catalyzed silica aerogel recipe. Aerogels doped with, Au nano-spheres, Ag nano-platelets, and CdSe/CdS core/shell quantum dots, were prepared. These aerogels exhibit homogeneous mono-dispersion of the nanoparticles, and possess the nanoparticles' unique optical properties. Additionally, doping does not affect the gelation process or the silica matrix. We envision that using this methodology, many other silica coated nanoparticles can be implemented as dopants. Furthermore, complex systems of several co-dopants can be obtained in a reproducible manner. Such aerogels can be tailor made for a vast range of applications.
ISSN:0896-8446
1872-8162
DOI:10.1016/j.supflu.2019.03.008