Acoustic Atomization-Induced Pumping Based on a Vibrating Sharp-Tip Capillary.

Autor: Mendis, Balapuwaduge Lihini, He, Ziyi, Li, Xiaojun, Wang, Jing, Li, Chong, Li, Peng
Předmět:
Zdroj: Micromachines; Jun2023, Vol. 14 Issue 6, p1212, 11p
Abstrakt: Pumping is an essential component in many microfluidic applications. Developing simple, small-footprint, and flexible pumping methods is of great importance to achieve truly lab-on-a-chip systems. Here, we report a novel acoustic pump based on the atomization effect induced by a vibrating sharp-tip capillary. As the liquid is atomized by the vibrating capillary, negative pressure is generated to drive the movement of fluid without the need to fabricate special microstructures or use special channel materials. We studied the influence of the frequency, input power, internal diameter (ID) of the capillary tip, and liquid viscosity on the pumping flow rate. By adjusting the ID of the capillary from 30 µm to 80 µm and the power input from 1 Vpp to 5 Vpp, a flow rate range of 3 to 520 µL/min can be achieved. We also demonstrated the simultaneous operation of two pumps to generate parallel flow with a tunable flow rate ratio. Finally, the capability of performing complex pumping sequences was demonstrated by performing a bead-based ELISA in a 3D-printed microdevice. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index