Plasma-soft tissue interactions: advancing a new era of plasma technologies. This project aims to develop the prerequisite knowledge to underpin new plasma technologies. Specifically, the project plans to provide new insight into the interaction between ionised gas plasma jets and biological soft tissue. It plans to use advanced analytical techniques and modelling simulations to investigate the physics of the plasma jet and processes occurring at the jet–tissue interface. It also plans to use (b ....Plasma-soft tissue interactions: advancing a new era of plasma technologies. This project aims to develop the prerequisite knowledge to underpin new plasma technologies. Specifically, the project plans to provide new insight into the interaction between ionised gas plasma jets and biological soft tissue. It plans to use advanced analytical techniques and modelling simulations to investigate the physics of the plasma jet and processes occurring at the jet–tissue interface. It also plans to use (bio)engineered tissue targets, chemical, biological and cellular assays to probe the transport and effects of plasma reactive species deep within tissue. This new knowledge would enable the development of new plasma sources and protocols for applications in health, medicine, biotechnology and manufacturing.Read moreRead less
Nanostructured non-precious metal and metal-free catalysts for sustainable clean energy generation. The innovative technologies for substitution of precious metal catalysts will be developed and used in fuel cells for clean energy generation in a highly efficient and sustainable form. This effort will lead to the reduction in carbon dioxide emissions and the alleviation of environmental and climate change problems.
Photonic chip inertial movement sensors. This project aims to create a new class of optical inertial movement sensors using integrated photonic chip technology. By replacing optical fibre coils with compact waveguides, integrating light sources on-chip and by harnessing smart sensing approaches, we intend to reduce the required power from watts to milliwatts and reduce the dimensions from meters to centimetres. The expected project outcomes are sensors with military grade precision but with the ....Photonic chip inertial movement sensors. This project aims to create a new class of optical inertial movement sensors using integrated photonic chip technology. By replacing optical fibre coils with compact waveguides, integrating light sources on-chip and by harnessing smart sensing approaches, we intend to reduce the required power from watts to milliwatts and reduce the dimensions from meters to centimetres. The expected project outcomes are sensors with military grade precision but with the size, cost and manufacturability of consumer electronics. This technology will fill a strategic gap in the movement sensor market enabling applications ranging from robotic infrastructure monitoring, manufacture and surgery to guiding satellites and other space craft.Read moreRead less