Two-dimensional nanoporous structured high performance gas evolution electrocatalysts. This project aims to develop nano-catalysts with high catalytic activity and rapid gas detachment properties for efficient fuel gas production. Heterogeneous electrocatalytic gas evolution reactions are important for clean energy generation and storage technologies, but high overpotentials caused by slow gaseous products’ detachment from catalyst surface severely hinder their efficiencies. Expected outcomes in ....Two-dimensional nanoporous structured high performance gas evolution electrocatalysts. This project aims to develop nano-catalysts with high catalytic activity and rapid gas detachment properties for efficient fuel gas production. Heterogeneous electrocatalytic gas evolution reactions are important for clean energy generation and storage technologies, but high overpotentials caused by slow gaseous products’ detachment from catalyst surface severely hinder their efficiencies. Expected outcomes include insights into gas bubble formation and evolution during electrocatalysis, effective catalyst structures to mitigate negative effects of gas bubble formation, and improved catalytic efficiency of gas evolution reactions and develop high performance electrocatalysts for fuel gas production.Read moreRead less
High performance electrode materials for Reversible Solid Oxide Cells. This project aims to develop high-performance electrode materials used in reversible solid oxide cells (RSOC), which are a promising electrical energy storage technology. RSOC can work as solid oxide electrolysis cells for fuel production from electricity and as solid oxide fuel cells for electricity generation from fuel. The RSOC technology has the potential to provide a large-scale electrical energy storage solution for the ....High performance electrode materials for Reversible Solid Oxide Cells. This project aims to develop high-performance electrode materials used in reversible solid oxide cells (RSOC), which are a promising electrical energy storage technology. RSOC can work as solid oxide electrolysis cells for fuel production from electricity and as solid oxide fuel cells for electricity generation from fuel. The RSOC technology has the potential to provide a large-scale electrical energy storage solution for the widespread penetration of intermittent renewable energy resources into the electrical grid.Read moreRead less
Novel concepts for bioelectrochemical generation of renewable fuels and chemicals from wastewater. Global warming and the diminishing fossil fuel resources are posing an ever increasing threat to our societies and economies. This project aims to develop novel and highly innovative bioelectrochemical processes for the production of valuable fuels and chemicals from wastewater, which is a largely untapped renewable resource.