An ultrasonic biosample disruptor with two triangular teeth on its radiation face

Abstract

AbstractUltrasound has been used in biosample disruption such as disruption of algal cell and DNA. New structure of ultrasonic biosample disruptor (UBD) needs to be explored to increase the energy efficiency. In this study, an UBD with two triangular teeth on the bottom radiation face of the water tank has been proposed, to concentrate the acoustic energy into the slot between the two neighboring triangular teeth, in order to raise the acoustic energy utilization and fragmentation performance. The acoustic energy concentration into the slot is verified by the FEM computation, and the improvement of fragmentation performance is experimentally confirmed with spirulina and tribonema, compared to the traditional UBD which has a flat radiation face. The number proportion of fragment in the length range of 10–20 μm generated by the UBD proposed in this work is 17.08% and 10.82% more than that generated by the traditional UBD for the two samples, respectively. Besides, the UBD proposed in this work has a much smaller standard deviation of DNA fragment length (47 bp) than the traditional UBD (249 bp), with a similar mean length of fragments. Moreover, the maximum weight proportion of fragment in the range of 100–300 bp, generated by the UBD proposed in this work, is 71.4%.