Two-dimensional silicon dioxide act as sieve for molecules and ions

A sieve for molecules
The two-dimensional silicon dioxide layer—not visible to the naked eye—is deposited on a gold surface. Credit: RUB, Kramer

Researchers from Bielefeld, Bochum and Yale have succeeded in producing a layer of two-dimensional (2D) silicon dioxide. This material contains natural pores and can therefore be used like a sieve for molecules and ions. Scientists have been looking for such materials for a long time because they could help desalinate seawater and be used in new types of fuel cells. The team outlines the fabrication process of bilayer silicates in the journal Nano Letters, published online on 19 January 2022. The study was jointly conducted by the teams headed by Dr. Petr Dementyev from Bielefeld University, Professor Anjana Devi from Ruhr-Universität Bochum and Professor Eric Altman from Yale University.

Naturally occurring pores in the crystal lattice

When are pierced with high precision, they can be used to filter out certain ions and molecules. Researchers have time and again tried to perforate the material graphene for this purpose, which consists of carbon atoms. Since it has no natural pores, they must be inserted artificially. But it is difficult to create holes of a defined size in graphene without permanently damaging the material. This is because it loses mechanical stability due to the perforation. Consequently, an alternative had to be found. In the current study, the research team took advantage of the fact that the of two-dimensional silicon dioxide contains pores by nature. They showed that these pores can be used to separate certain gases from each other.

"This is very exciting because 2D silicon dioxide has a very high density of tiny pores by nature that is simply not possible to be created in artificial membranes," says Petr Dementyev from the Physics of Supramolecular Systems and Surfaces research group in Bielefeld. "Unlike in perforated graphene, the pores are all almost the same size. And there's such an incredible number of them that the material behaves like a fine-mesh sieve for molecules."

A sieve for molecules
Two-dimensional silica has pores that are permeable to certain molecules (right), but not to others (left). It therefore acts like a sieve for molecules. Credit: RUB, AG Chemie Anorganischer Materialien

Problematic to manufacture

2D silica has been known since 2010. However, it was very expensive to manufacture, which could only be done on a small scale. Pooling together expertise from materials chemistry, chemical engineering and chemical physics, the researchers from Bochum, Bielefeld and Yale came up with a new material fabrication process. They used so-called to deposit a single layer of on a gold surface. Using a high-pressure process, the researchers transferred the layer into its two-dimensional form and then characterized it in detail by means of spectroscopy and microscopy. They then examined the gas flow through the 2D membrane in a vacuum chamber.

While vaporous water and alcohol penetrated the silica layer, the gases nitrogen and oxygen couldn't pass through. "Materials like this with selective permeability are in high demand in industry," says Anjana Devi. However, before the 2D silica can be used in practice, it is important to evaluate exactly how many different molecules can attach to the surface of the material or how they can penetrate it.

"We expect our results to be of high relevance to the materials science community worldwide," concludes Anjana Devi from the Inorganic Materials Chemistry research group. Such 2D membranes could be at the forefront of aiding sustainable development, for example in the field of energy conversion or storage."


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More information: Daniil Naberezhnyi et al, Molecular Permeation in Freestanding Bilayer Silica, Nano Letters (2022). DOI: 10.1021/acs.nanolett.1c04535
Journal information: Nano Letters

Citation: Two-dimensional silicon dioxide act as sieve for molecules and ions (2022, March 7) retrieved 5 July 2022 from https://phys.org/news/2022-03-two-dimensional-silicon-dioxide-sieve-molecules.html
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