ICQE 2025

Extending the self-discharge time of Dicke quantum batteries using molecular triplets

5 Jun 2025, 18:05

20m

Centro Culturale Altinate | Padova · Italy

Oral presentation Theme 2. Quantum effects in energy processes and materials

Speaker

Daniel Tibben (RMIT University)

Description

Quantum batteries, quantum systems for energy storage, have gained interest due to their potential scalable charging power density. A quantum battery proposal based on the Dicke model has been explored using organic microcavities, which enable a cavity-enhanced energy transfer process called superabsorption. However, energy storage lifetime in these devices is limited by fast radiative emission losses, worsened by superradiance. We present a proof-of-concept device based on a multilayer optical microcavity, where an active absorption layer transfers energy to the molecular triplets of a storage layer. We experimentally realise this device and show that energy is stored for tens of microseconds--a $10^3$-fold increase in storage time compared to previous demonstrations.