In milliseconds from polluted to clear water

In this image we see several parallel nanometer-sized tubes as a part of the membrane in which the photocatalytic reaction takes place. The membrane is a macroscopic object composed of an ensemble of such nanotubes.
ScienceBrush Design /
Max Planck Institute of Colloids and Interfaces

New discoveries in the field of nanoscience …

Researchers at the Max Planck Institute of Colloids and Interfaces developed a membrane that is composed of a bundle of nanometer-sized tubes. They used it as a nanoreactor to convert water marked with methylene blue into clear water in milliseconds using sunlight as a driver. ‘Running reactions in fluids with lower viscosity in a blink of an eye represents a new opportunity for chemistry,’ says Prof. Markus Antonietti, Director of the Department of Colloid Chemistry.

Chemistry is often considered as a mature discipline in which new findings only emerge at the outer rims. A team led by Dr. Aleksandr Savateev has now shown that there are still remarkable surprises in the very core, at the nanoscale. Properties of common fluids like water depend on the size of the container in which they are confined. If you fill water, already a quite agile liquid with low viscosity, into a nanosized container that can fit only a few water molecules, it becomes ‘superfluidic’. The smaller the confinement, the larger the superfluid effect. Not all water is the same.

How it works

In their reaction experiments, the Savateev group developed a membrane composed of billions of parallel carbon nitride tubes, each with a diameter of a few nanometers, which is 1/10,000 of a human hair. They observed that water slides through these tubes without any friction. In such settings, light is used as a driver for the chemical transformation of polluted water into clear water, while quantum confinement created by the membrane also directs energy of light with unprecedented efficiency. The concave surface of the parallel, nearly one-dimensional tubes, serves as a kind of a mirror that concentrates internal electric field inside the nanotube. Combined with the light coming from outside, it enhances drastically the reaction rate. ‘In ordinary 3D space, reaction rates in milliseconds are simply impossible,’ Dr. Savateev says.

‘We are actively working on the development of this technology to synthesize fuel and other for the society important materials using sustainable energy like solar light, in simple devices comparable to a coffee filter,’ says Aleksandr Savateev.

Originalpublikation:

https://pubs.acs.org/doi/10.1021/acsnano.0c09661

Weitere Informationen:

https://www.mpikg.mpg.de/press-releases

Media Contact

Juliane Jury Presse- und Öffentlichkeitsarbeit
Max-Planck-Institut für Kolloid- und Grenzflächenforschung

All latest news from the category: Life Sciences and Chemistry

Articles and reports from the Life Sciences and chemistry area deal with applied and basic research into modern biology, chemistry and human medicine.

Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.

Back to home

Comments (0)

Write a comment

Newest articles

Innovative 3D printed scaffolds offer new hope for bone healing

Researchers at the Institute for Bioengineering of Catalonia have developed novel 3D printed PLA-CaP scaffolds that promote blood vessel formation, ensuring better healing and regeneration of bone tissue. Bone is…

The surprising role of gut infection in Alzheimer’s disease

ASU- and Banner Alzheimer’s Institute-led study implicates link between a common virus and the disease, which travels from the gut to the brain and may be a target for antiviral…

Molecular gardening: New enzymes discovered for protein modification pruning

How deubiquitinases USP53 and USP54 cleave long polyubiquitin chains and how the former is linked to liver disease in children. Deubiquitinases (DUBs) are enzymes used by cells to trim protein…