Search results
Prize Winner
Professor Will UnsworthFor the development of creative, modular strategies for the synthesis of biologically important small molecules, particularly those based on biocatalytic oxygenation reactions.
Prize Winner
Professor Richmond SarpongFor the development of creative strategies for the synthesis of complex molecules and new methods for chemical synthesis based on the concept of single-atom skeletal editing.
Prize Winner
Professor Amos FatokunFor inspirational and long-term leadership, providing culturally competent mentoring to Black and minoritised ethnic students and staff internationally in the chemical sciences, and advocating inclusive training and stakeholder understanding of the socio-cultural factors impacting their progression.
Prize Winner
Dr Aneika LeneyFor the application of mass spectrometry to the understanding and manipulation of molecular processes mediated by self-assembly and post-translational modifications.
Prize Winner
Birmingham Plastics Network and Stan's Cafe Theatre CompanyFor creating a partnership to elevate the public profile of sustainable polymer chemistry and demonstrate how storytelling can be a powerful tool in addressing complex societal challenges.
Prize Winner
Bio-hydrogen cycle with photocatalysisFor developing improved photocatalytic approaches for solar powered hydrogen production from sustainable biomass.
Prize Winner
AI Enabled Nanopore SensingFor the development of transformative artificial intelligence for nanopore sensing to enable accurate and reproducible single-molecule measurements.
Prize Winner
Professor Neil GargFor challenging long-standing paradigms in organic chemistry through the creative generation and use of strained intermediates in synthesis, and for excellence in communication.
Prize Winner
Timothy EasunFor outstanding service to the Royal Society of Chemistry through our member communities and governance groups, in particular supporting the porous materials and supramolecular communities.
Prize Winner
CHOISEFor the development of a new class of chiral semiconductors to demonstrate the controllable interconversion between charge, spin, and light at room temperature.
Person
Tim AkermanPerson
Katie AndersonPerson
Alan BanyardPerson
Chris BarnettPerson
Julian BashamPerson
Simon BinyonPerson
Susan BrenchPerson
Jerry Carr-BrionPerson
Mick CaseyPerson
Nigel Clarke