Chemically programmable microrobots weaving a web from hormones

journal article in Web of Science

English

The occurrence of synthetic and natural hormones in an aqueous environment poses significant risks to humans because of their endocrine-disrupting activity. Autonomous self-propelled and remotely actuated nano/microrobots have emerged as a new field that encompasses a wide range of potential applications, including sensing, detection and elimination/degradation of emerging pollutants. In this work, we develop programmable polypyrrole-based (PPy, outer functional layer) microrobots incorporated with a Pt catalytic layer and paramagnetic iron nanoparticles (Fe3O4) to provide self-propulsion and a magnetic response for the highly efficient removal of oestrogenic pollutants. As the pH of the tested water alters, the surface charge of PPy/Fe3O4/Pt microrobots gradually changes, leading to affinity modulation. As microrobots move inside the solution, they collect oestrogen fibres and subsequently weave macroscopic webs on the surface. Our results suggest that motion-controllable microrobots with adjustable surface chemistry could provide a suitable platform for the highly efficient removal of hormonal pollutants. Microrobots are usually too small to contain traditional computing substrates that could control their behaviour. Dekanovsky and colleagues have developed a microrobot swarm that removes hormonal pollutants when it senses a chemical signal in its environment.

STEROID-HORMONES; POLYPYRROLE; WATER; MICROMOTORS; DEGRADATION; EFFLUENTS; REMOVAL; CAPTURE; SEWAGE

DĚKANOVSKÝ, L.; KHEZRI, B.; ROTTNEROVÁ, Z.; NOVOTNÝ, F.; PLUTNAR, J.; PUMERA, M.

1. 11. 2020

SPRINGERNATURE

LONDON

2522-5839

Nature Machine Intelligence

2

11

United Kingdom of Great Britain and Northern Ireland

1

13

13

https://www.nature.com/articles/s42256-020-00248-0