Chemical nanomotors at the gram scale form a dense active optorheological medium

Choudhury, Udit; Singh, Dhruv P.; Qiu, Tian; Fischer, Peer

doi:10.1002/adma.201807382

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Chemical nanomotors at the gram scale form a dense active optorheological medium

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Fischer, Peer
Optical Nanoscopy, Max Planck Institute for Medical Research, Max Planck Society;

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Citation

Choudhury, U., Singh, D. P., Qiu, T., & Fischer, P. (2019). Chemical nanomotors at the gram scale form a dense active optorheological medium. Advanced Materials, 31(12): 1807382, pp. 1-7. doi:10.1002/adma.201807382.

Cite as: https://hdl.handle.net/21.11116/0000-000B-2826-E

Abstract

The rheological properties of a colloidal suspension are a function of the concentration of the colloids and their interactions. While suspensions of passive colloids are well studied and have been shown to form crystals, gels, and glasses, examples of energy-consuming “active” colloidal suspensions are still largely unexplored. Active suspensions of biological matter, such as motile bacteria or dense mixtures of active actin–motor–protein mixtures have, respectively, reveals superfluid-like and gel-like states. Attractive inanimate systems for active matter are chemically self-propelled particles. It has so far been challenging to use these swimming particles at high enough densities to affect the bulk material properties of the suspension. Here, it is shown that light-triggered asymmetric titanium dioxide that self-propel, can be obtained in large quantities, and self-organize to make a gram-scale active medium. The suspension shows an activity-dependent tenfold reversible change in its bulk viscosity.