This research develops a theoretical framework for understanding electron–hole interactions in quantum dots, focusing on positive and negative trions. By analytically modeling their behavior under electric and magnetic fields, it bridges gaps between theory and experiment, supporting advances in quantum electronics, energy technologies, and targeted medical applications.

This research uses neutron scattering — “neutron vision” — to reveal the full structure of complex nanoparticles that X-rays can’t fully resolve. By developing statistical methods to optimise experiment design and analyse data, the project enables clearer structural insights, accelerating the development of advanced materials for energy, medicine and nanotechnology.