Tropes

futurity_sci_tech 00924.txt

#Catalyst makes tiny rods swim to target University of Warwick rightoriginal Studyposted by Anna Blackaby-Warwick on September 10 2013putting a bit of catalyst on the ends of microscopic atchstickscan propel them through water to a specific chemical report researchers. The new powerful and very versatile way of controlling the speed and direction of motion of microscopic structures in water relies on what the researchers have dubbed chemically otorized microscopic matchsticks. efore now most research seeking to influence the direction of motion of microscopic components have had to use outside influences such as a magnetic field or the application of light. ur approach is very versatile and should allow for future fabrication of micro-components of added complexity. The ability to direct motion of these colloidal structures can form a platform for advances in supracolloidal science the self-assembly of small objectssays project leader Stefan Bon a research chemical engineer at the University of Warwick. t may even provide some insight into how rod shapes were selected for self-propelled microscopic shapes in the natural world. he team has now found a way to do it by simply adding a chemical in a specific spot and then watching the microscopic matchstick particles move towards it a phenomenon known as chemotaxis. For the purposes of this experiment the researchers placed silica##manganese oxide eadson the matchstick material and introduced hydrogen peroxide as the chemical fuel in one particular place. They placed the atchsticksin a mixture alongside ordinary polymer microspheres. When the hydrogen peroxide was added the microspheres continued to move in the direction of convection currents or under Brownian motion but the matchsticks were propelled clearly rapidly towards the chemical gradient where the hydrogen peroxide could be found. The reaction was so strong that more than half of the matchstick particles did not reverse their orientation once over their 90 seconds of travel towards the hydrogen peroxide even though they were contending with significant convection and Brownian rotation. e choose high aspect ratio rodlike particles as they are a favorable geometry for chemotactic swimmers as seen for example in nature in the shapes of certain motile organismssays Bon. e placed the engine that drives the self-propulsion as a matchstick head on the rods because having the engine in the head of the rod helps us align the rod along the direction of travel would also show the asymmetry perpendicular to the direction of self-propulsion and at the same time it maintains rotational symmetry parallel to the plane of motion. he findings are published in the journal Materials Horizons. Source: University of Warwic o

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