posted on 2016-01-13, 00:00authored byRyan C. Gough, Jonathan H. Dang, Matthew R. Moorefield, George
B. Zhang, Lloyd H. Hihara, Wayne A. Shiroma, Aaron T. Ohta
Presented
here is a method for actuating a gallium-based liquid-metal
alloy without the need for an external power supply. Liquid metal
is used as an anode to drive a complementary oxygen reduction reaction,
resulting in the spontaneous growth of hydrophilic gallium oxide on
the liquid-metal surface, which induces flow of the liquid metal into
a channel. The extent and duration of the actuation are controllable
throughout the process, and the induced flow is both reversible and
repeatable. This self-actuation technique can also be used to trigger
other electrokinetic or fluidic mechanisms.