Research

Engineering of meso-micro porous nanocarbon assemblies

Engineering of Meso‑Micro Porous Assembly of Nanocarbons

Developing advanced carbon nanomaterials with controlled meso‑micro porous structures for enhanced energy storage applications.

We engineer nanocarbon assemblies with hierarchical porosity at both meso and micro scales to optimize ion transport and charge storage. By tailoring pore size distribution, connectivity, and surface chemistry, we aim to realize high‑performance electrode materials for next‑generation energy storage devices.

Photothermal conversion strategies for energy storage

Photothermal Conversion Strategies for Energy Storage

Exploring innovative photothermal conversion mechanisms in nanocarbon assemblies for efficient solar energy harvesting and storage.

This work focuses on leveraging photothermal effects in nanocarbon materials to convert solar energy into thermal energy, and subsequently store it in electrochemical systems. We investigate material design, light–matter interactions, and device architectures that couple photothermal conversion with energy storage.