Hybrid resonant acoustics for microfluidic materials synthesis. This project aims to demonstrate the feasibility of a new class of sound waves as a microfluidic micronisation platform for high throughput particle synthesis and crystallisation of active pharmaceutical ingredients.It will use theoretical and numerical studies to research the fundamental physics of a hybrid between bulk and surface waves. This platform is expected to improve energy efficiency a thousandfold, providing an economical ....Hybrid resonant acoustics for microfluidic materials synthesis. This project aims to demonstrate the feasibility of a new class of sound waves as a microfluidic micronisation platform for high throughput particle synthesis and crystallisation of active pharmaceutical ingredients.It will use theoretical and numerical studies to research the fundamental physics of a hybrid between bulk and surface waves. This platform is expected to improve energy efficiency a thousandfold, providing an economical and environmental alternative to conventional processes such as spray drying, and potentially transforming practice across the pharmaceutical, food and other industries.Read moreRead less
Acoustomicrofluidic platforms for two-dimensional materials processing. This project aims to exploit high frequency vibration through a novel microfluidic platform for efficiently synthesising and manipulating two-dimensional materials. The project is anticipated to circumvent practical limitations with current synthesis methods, particularly in terms of controllability and reproducibility. The expected outcome is a versatile means for rapidly and uniformly coating these materials on a variety o ....Acoustomicrofluidic platforms for two-dimensional materials processing. This project aims to exploit high frequency vibration through a novel microfluidic platform for efficiently synthesising and manipulating two-dimensional materials. The project is anticipated to circumvent practical limitations with current synthesis methods, particularly in terms of controllability and reproducibility. The expected outcome is a versatile means for rapidly and uniformly coating these materials on a variety of surfaces. Given their remarkable properties, such disruptive technology for consumer/industrial-scale production will provide tremendous opportunities for their application in electronics, energy and catalysis, among other uses.Read moreRead less