Abstract:For controlling the flow direction of microfluid in microchannels, a new method for switching off microchannels by surface acoustic wave is presented. An interdigital transducer with 27.5MHz center frequency is fabricated on a 1280 yx-LiNbO3 piezoelectric substrate for exciting surface acoustic wave. Solid paraffin in poly (dimethylsiloxane) groove is melted by surface acoustic wave and transported along a microchannel due to capillary force. As soon as the electric signal for exciting surface acoustic wave is moved off, the paraffin is solidified and blocked the microchannel. The microchannel is then switched off. Red dye solution is used to demonstrate the operation of switching off the microchannel. Results show that the microchannel can successfully be switched off by surface acoustic wave. Near five minutes switching time is obtained when the electric signal power is 31.7 dBm. The work is help for researchers to study on microvalves controlled by surface acoustic wave.