Research

Energy Storage Devices

Our lab is at the cutting edge of developing Flexible energy storage devices designed for future high-performance applications. We aim to create ultra-small, reliable power sources that are crucial for advanced technologies, such as implantable devices in the brain or wearable health monitoring systems. These applications demand energy storage solutions that are compact, thin, wearable, and capable of high capacity and stability.

A key focus of our research is on Energy storage devices, including Supercapacitors and Microsupercapacitors, based on 2D MXenes. MXenes offer unique advantages due to their pseudocapacitance properties, providing high energy density and rapid charge/discharge capabilities. Additionally, MXenes allow for solution-based processing on various substrates, including flexible and biocompatible ones, making them highly versatile for integration into different electronic systems, from flexible wearables to biomedical implants.

Beyond supercapacitors, we are also advancing the development of nanomaterial-based Thin-film Batteries. These batteries are engineered to deliver both high energy density and mechanical flexibility, offering robust and reliable energy solutions for ultra-compact devices that must maintain performance under diverse conditions.

By innovating in the field of nanomaterial-based energy storage, we strive to develop the next generation of power solutions that will support future technologies in a variety of fields, pushing the boundaries of what’s possible in biomedical and wearable applications.