We report the synthesis of silver-based Janus micromotors that self-propel at 3.5 mu m s(-1) and speed up to 45 mu m s(-1) in 0.044 and 1.5 mM of H2O2, respectively, via ionic diffusiophoresis. Morphology optimization further accelerates the speed to 90 mu m s(-1), which leads to a force of 1 pN and a power of 0.1 fW, similar to biomolecular motors. Their efficiency reaches 10(-5), at least two orders of magnitude higher than other chemically-driven micromotors. These micromotors hold great promises in various applications.
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