Discovery Early Career Researcher Award - Grant ID: DE210101102
Funder
Australian Research Council
Funding Amount
$404,748.00
Summary
Single-Atom Catalysts on Atomically Thin Nanomaterials for H2O2 Production. Single-atomic sites supported on graphene analogs is an ideal structural mode for the design of electrocatalysts due to its ultimate small size limit, atomic thickness, and easily tuned electronic properties. This project aims to use a theory-guided approach to develop efficient electrocatalysts for the production of value-added hydrogen peroxide. The structural advantages of graphene analogs will be fully utilised to un ....Single-Atom Catalysts on Atomically Thin Nanomaterials for H2O2 Production. Single-atomic sites supported on graphene analogs is an ideal structural mode for the design of electrocatalysts due to its ultimate small size limit, atomic thickness, and easily tuned electronic properties. This project aims to use a theory-guided approach to develop efficient electrocatalysts for the production of value-added hydrogen peroxide. The structural advantages of graphene analogs will be fully utilised to unlock the catalytic power of single-atomic sites, and consequently achieve high catalytic activity and selectivity. The outcome will set a solid scientific foundation to enable economically viable technologies for eco-friendly hydrogen peroxide production and bring significant socioeconomic benefits to Australia.Read moreRead less
Colloid interactions and extraction in sustainable, water efficient paper manufacture. This project will investigate the causes of wood extractive deposits on modern high-speed printing surfaces. The project will also develop alternatives to prevent their deposition in an environmentally sustainable manner, and to remove them from the paper making process allowing their utilisation as valuable natural products.