Press Releases
Light-activated metal catalyst destroys cancer cells’ vital energy source
A space-age metal that formed part of the asteroid that destroyed the dinosaurs could provide a new method of treating cancer tumours selectively using light.
Elusive compounds of greenhouse gas isolated by Warwick chemists
Nitrous oxide (N2O) is a potent atmospheric pollutant. Although naturally occurring, anthropogenic N2O emissions from intensive agricultural fertilisation, industrial processes, and combustion of fossil fuels and biomass are a major cause for concern. Researchers at the University of Warwick have isolated elusive transition metal compounds of N2O that provide clues into how it could be used in sustainable chemical technologies.
Flexible solar cells a step closer to reality
Solar cells that use mixtures of organic molecules to absorb sunlight and convert it to electricity, that can be applied to curved surfaces such as the body of a car, could be a step closer thanks to a discovery that challenges conventional thinking about one of the key components of these devices.
Warwick researchers shortlisted for major prize
Two projects led by Warwick researchers have been shortlisted for the 2019 Newton Prize, a prestigious award which celebrates outstanding international research partnerships aimed at tackling global challenges. A project exploring innovative cancer drugs and one studying the impact of forced evictions on economically underprivileged women in Jakarta are among the final 20 which will now be reviewed by a panel of expert judges.
Greener, faster and cheaper way to make patterned metals for solar cells and electronics
An innovative way to pattern metals has been discovered by scientists in the Department of Chemistry at the University of Warwick, which could make the next generation of solar panels more sustainable and cheaper.
Record-breaking new analytical method for fingerprinting petroleum and other complex mixtures
Scientists at the University of Warwick have developed a more powerful method of analysing chemical mixtures, which has been able to assign a record-breaking number of 244,779 molecular compositions within a single sample of petroleum.