2D vertical heterostructures for multi-functional energy applications. This project aims to develop multi-functional 2D vertical heterostructures for sustainable energy applications. A key challenge i

Description

2D vertical heterostructures for multi-functional energy applications. This project aims to develop multi-functional 2D vertical heterostructures for sustainable energy applications. A key challenge in fabricating 2D vertical heterostructures is the re-stacking of layered materials. This project will utilize edge-rich vertical graphene to unleash the full potential of 2D vertical heterostructures by combining the advantages of individual building blocks while mitigating the associated shortcomings. Expected outcomes will include improved electrochemical performance of materials and an integrated energy system utilizing these multi-functional materials to produce green hydrogen at low cost and high efficiency. The project should contribute largely to Australia’s transition to robust and affordable clean energy.. Scheme: ARC Future Fellowships. Field: 4004 - Chemical Engineering. Lead: Prof Zhaojun Han