Metal–organic frameworks (MOFs) are highly-porous materials with molecule-sized channels, into which guest molecules can be loaded and unloaded. Read more
The past four decades of science have witnessed how chemists have learnt from nature, in part by trial and error as well as elegant design, to understand and master the use of weak non-covalent interactions and self-assembly processes in synthetic systems to realise complex multi-component assemblies that exhibit attractive functionalities. Read more
MALDI. mass spectrometry has been a cornerstone of modern biological mass. spectrometry, enabling the soft ionization, analysis and characterisation of. Read more
We have a vacancy for a PhD student working in the area of physical chemistry. While lithium dominates current battery technology, there is considerable drive to move away from lithium salts to more abundant or lower cost alternatives. Read more
Thermoelectric materials offer the unique capability to convert waste heat directly into electrical energy. Efficiency is related to a figure of merit (ZT S2sT/k), that is determined by the Seebeck coefficient (S), electrical conductivity (s) and thermal conductivity (k). Read more
We have a vacancy for a PhD student to join a project at the forefront of research in thermoelectric materials, which can be used in devices for the direct conversion of waste heat into electrical power. Read more
Rechargeable lithium-ion batteries are widely used in mobile applications. However, concerns about the availability of lithium and cobalt raw materials suggest alternative materials may be needed in future large-scale applications. Read more
Our laboratory is interested in the application of enabling technologies, such as continuous flow[1] and photochemistry,[2] for the synthesis of useful functional molecules such as drugs, agrochemicals and materials. Read more
"We have a vacancy for a PhD student to synthesise and characterize new materials with open-framework structures, such metal phosphates, transition-metal cyanides or metal-organic compounds. Read more
The proposed research area concerns the fabrication and study of the behaviour of mesoporous electrodes. The main focus of the project will be to undertake the control of surface macro-morphology and nanostructure and to investigate how these properties influence surface activity and electrode performance. Read more
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