Complex quantum materials are at the forefront of both the drive to understand the fundamentals of physics and chemistry and the quest to find the basis of new quantum technologies. Such materials host exotic phenomena such as quantum spin liquid, spin-orbit driven Mott insulator and topological semimetal states. Often these phases arise from a delicate balance of competing interactions and precise details of structural symmetries and subtle distortions must be resolved to enable effective partnership with theory. However, to succeed in elucidating these structure-property relationships, additional materials chemistry challenges such as the effects of disorder, non-stoichiometry, and lack of reproducibility of synthesis must regularly be tackled. I will outline recent examples of our investigations in this arena and present an outlook to enabling the design of the next generation of quantum materials.
The talk will be followed by a special careers session where Dr Gibbs will give a summary of her career journey and take any questions.