Discovery Early Career Researcher Award - Grant ID: DE230100138
Funder
Australian Research Council
Funding Amount
$419,804.00
Summary
Developing Switchable Ligands to Control Gold Nanocluster Interfaces. This project aims to unlock the promising catalytic activity of protected gold nanoclusters by developing switchable ligands capable of undergoing controlled detachment and exchange. This project expects to provide a detailed understanding of how the gold thiolate interface of nanoclusters influences their physical and chemical properties. Expected outcomes include the design of improved catalysts for chemical synthesis and bi ....Developing Switchable Ligands to Control Gold Nanocluster Interfaces. This project aims to unlock the promising catalytic activity of protected gold nanoclusters by developing switchable ligands capable of undergoing controlled detachment and exchange. This project expects to provide a detailed understanding of how the gold thiolate interface of nanoclusters influences their physical and chemical properties. Expected outcomes include the design of improved catalysts for chemical synthesis and biological assays using computer aided chemical modelling. These catalysts should be easier to recover after use, which should improve cost-effectiveness. They should also improve the accuracy of biological sensors, which could ultimately be used for the rapid and early detection of diseases.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230101068
Funder
Australian Research Council
Funding Amount
$454,554.00
Summary
Direct Electrolysis of Amine Captured CO2 for Producing Syngas. This project aims to develop electrolysis of amine captured carbon dioxide (CO2) technology to integrate CO2 capture and syngas production powered by renewable electricity. The aqueous amine captured CO2 will be directly electrolysed without CO2 desorption, compression, and purification, featuring extremely high efficiency and cost-effectiveness. Expected outcomes include the delivery of suitable amines, a family of chemically and s ....Direct Electrolysis of Amine Captured CO2 for Producing Syngas. This project aims to develop electrolysis of amine captured carbon dioxide (CO2) technology to integrate CO2 capture and syngas production powered by renewable electricity. The aqueous amine captured CO2 will be directly electrolysed without CO2 desorption, compression, and purification, featuring extremely high efficiency and cost-effectiveness. Expected outcomes include the delivery of suitable amines, a family of chemically and structurally controlled electrocatalysts, an in-depth understanding of CO2 electrolysis mechanisms, and the demonstration of robust electrolyser prototypes. This project will provide significant benefits to Australia’s energy and environmental security, and boost its clean energy industry and economic growth.Read moreRead less