Research & Projects

Schematic of 2D perovskite monolayer

Charge transport through perovskite materials is a complex interplay of electronic and ionic mechanisms. Understanding and controlling these transport processes are essential for optimizing the functionality of devices that rely on perovskite materials, spanning from solar cells to light-emitting devices and beyond.

(a) Two-dimensional aluminium lattice with symmetry representation (b) High symmetry sites of 2D aluminum (c) Adsorption energy of metal battery ions on 2D aluminum sheet and (d) Adsorption energies at different lattice sites.

Two-dimensional (2D) metals are thin materials composed of a single layer or a few layers of metal atoms. While true 2D metals are relatively rare, some 2D materials with metallic properties can play significant roles in energy storage applications. These materials offer unique characteristics that can enhance the performance of energy storage devices such as batteries and supercapacitors. 

To be updated.