Exploring electronic functionality in low-dimensional carbon and boron-nitride nanomaterials via advanced theoretical modelling. This project will spawn innovative carbon/boron nitride materials for next-generation electronics devices by devising new strategies to manipulate and control electronic structure as well as charge/spin transport properties. Outcomes will include technological breakthroughs leading to truly smaller, faster and smarter electronics materials.
Non-precious fuel cell cathode catalysts from carbon-based nanohybrids: a computational to experimental quest. This joint computational-experimental project will address significant problems including high cost, limited availability and poor performance in traditional platinum-based fuel cell technology. The outcomes are expected to help address global energy problems through the development of inexpensive fuel cell catalysts based on carbon nanohybrids.
Targeting nano-catalysts for sustainable biorefining and chemical processes. This joint computational-experimental project aims to address one significant global challenge of developing sustainable technologies for important chemical processes. The project expects to discover new advanced nano-catalysts via a rapid single-step process which will replace toxic and corrosive liquid acids, and low efficient solid acids, used in emerging biorefining and petrochemistry. Advanced spectroscopic studies ....Targeting nano-catalysts for sustainable biorefining and chemical processes. This joint computational-experimental project aims to address one significant global challenge of developing sustainable technologies for important chemical processes. The project expects to discover new advanced nano-catalysts via a rapid single-step process which will replace toxic and corrosive liquid acids, and low efficient solid acids, used in emerging biorefining and petrochemistry. Advanced spectroscopic studies, in synergy with state-of-the-art ab initio calculations will be used to explore nanostructure-performance relationship in depth. Such cutting-edge knowledge will have profound implications on designing innovative catalysts with tailored activity for sustainable production of biofuels and chemicals.Read moreRead less