We innovatively accomplish dual-surface simultaneous atomization by strategically positioning the liquid supply outside the IDT aperture edge.

Aug 5, 2024 · We optimize Lamb wave transducers and specifically investigate their performance based on the ratio of substrate thickness to acoustic wavelength.

Aug 27, 2024 · Experimental results demonstrate that optimized Lamb wave transducers exhibit clear dual-surface simultaneous atomization. These transducers ...

Highly efficient surface acoustic wave (SAW) transducers offer significant advantages for microfluidic atomization. Aiming at highly efficient atomization, ...

Experimental results demonstrate that optimized Lamb wave transducers exhibit clear dual-surface simultaneous atomization. These transducers provide equivalent ...

Acoustic wave devices have great potential for integration with lab-on-chip highly efficient microfluidics. This article investigates Lamb wave-based ...

Lamb waves have long been considered less efficient than SAWs for microfluidic driving, with an efficiency difference of approximately one order of magnitude [ ...

Development of Highly Efficient Lamb Wave Transducers toward Dual-Surface Simultaneous Atomization. Sensors 2024, 24, 5607. https://doi.org/10.3390 ...

This paper presents a novel SAW atomizer that uses lateral acoustic wetting to achieve atomization without a direct water supply.

Aug 28, 2024 · Highly efficient surface acoustic wave (SAW) transducers offer significant advantages for microfluidic atomization.