Enabling technology unlocking full potential of high bandgap chalcopyrite . This project is aimed at solving the fundamental challenges of high bandgap chalcopyrite light-harvesting material to unlock its full potential as the top cell for photovoltaic tandem cell and the photocathode for photoelectrochemical applications. This will be realised by dynamic optimisation of its performance in photovoltaic solar cell device through understanding of its defects origins, enabling defects controlling t ....Enabling technology unlocking full potential of high bandgap chalcopyrite . This project is aimed at solving the fundamental challenges of high bandgap chalcopyrite light-harvesting material to unlock its full potential as the top cell for photovoltaic tandem cell and the photocathode for photoelectrochemical applications. This will be realised by dynamic optimisation of its performance in photovoltaic solar cell device through understanding of its defects origins, enabling defects controlling technologies, and microscopic carrier loss mechanism analysis via systematic macro-to-micro characterisations combined with 3D device simulation. The project completion will reinforce the next-generation tandem cell and photoelectrochemical technologies with the efficient, stable, RoHS-compliant and thin chalcopyrite devices.Read moreRead less