Add to ORKGWe describe the fabrication of a surface acoustic wave (SAW) atomizer, and show its ability to generate monodisperse aerosol and particles for drug delivery applications. In particular, we demonstrate the generation of insulin microdroplets for pulmonary delivery, and polymeric nanoparticles for one-step rapid encapsulation using SAW devices with resonance frequencies of 8.6 MHz and 19.3 MHz. Insulin droplets around 4 μm were obtained, matching the optimum range for maximising droplet absorption in the alveolar region. Nanoscale polymer particles (130- 220 nm in diameter) were obtained through a non-equilbrium evaporation and nucleation process, thereby presenting a quick and simple means for nanoparticle synthesis. These results exhibit th...
Generating aerosol droplets via the atomization of thin aqueous films with high frequency surface ac...
High density micron sized aerosols from liquid surfaces were generated using surface acoustic wave (...
Though uncommon in most microfluidic systems due to the dominance of viscous and capillary stresses,...
This work demonstrates the use of surface acoustic wave (SAW) atomization together with a nonuniform...
Surface acoustic wave (SAW) atomization is attractive for generating micron or submicron aerosols in...
Surface acoustic wave (SAW) atomization has been found to be a rapid and efficient way for generatin...
Multiple layer nanoparticles offers a likelihood of success in drug delivery, as it provides a solut...
Nanoparticles have been proved to be essentially important for efficient drug deliveries, and the dr...
Multiple layer nanoparticles offers a likelihood of success in drug delivery, as it provides a solut...
We present a straightforward and rapid surface acoustic wave (SAW) atomization-based technique for e...
We demonstrate that surface acoustic waves (SAWs), nanometer amplitude Rayleigh waves driven at mega...
Surface acoustic waves (SAWs) devices for droplets manipulation have become widespread in the last t...
Drops are omnipresent in our daily life for example in the form of rain drops or as oil drops in a s...
Generating aerosol droplets via the atomization of thin aqueous films with high frequency surface ac...
In this work, we discuss and demonstrate the principle features of surface acoustic wave (SAW) aeros...
Generating aerosol droplets via the atomization of thin aqueous films with high frequency surface ac...
High density micron sized aerosols from liquid surfaces were generated using surface acoustic wave (...
Though uncommon in most microfluidic systems due to the dominance of viscous and capillary stresses,...
This work demonstrates the use of surface acoustic wave (SAW) atomization together with a nonuniform...
Surface acoustic wave (SAW) atomization is attractive for generating micron or submicron aerosols in...
Surface acoustic wave (SAW) atomization has been found to be a rapid and efficient way for generatin...
Multiple layer nanoparticles offers a likelihood of success in drug delivery, as it provides a solut...
Nanoparticles have been proved to be essentially important for efficient drug deliveries, and the dr...
Multiple layer nanoparticles offers a likelihood of success in drug delivery, as it provides a solut...
We present a straightforward and rapid surface acoustic wave (SAW) atomization-based technique for e...
We demonstrate that surface acoustic waves (SAWs), nanometer amplitude Rayleigh waves driven at mega...
Surface acoustic waves (SAWs) devices for droplets manipulation have become widespread in the last t...
Drops are omnipresent in our daily life for example in the form of rain drops or as oil drops in a s...
Generating aerosol droplets via the atomization of thin aqueous films with high frequency surface ac...
In this work, we discuss and demonstrate the principle features of surface acoustic wave (SAW) aeros...
Generating aerosol droplets via the atomization of thin aqueous films with high frequency surface ac...
High density micron sized aerosols from liquid surfaces were generated using surface acoustic wave (...
Though uncommon in most microfluidic systems due to the dominance of viscous and capillary stresses,...