Nanorobotics, at the intersection of nanotechnology and robotics, promises a future where tiny machines with unprecedented capabilities can navigate complex environments at the nanoscale. Our research vision is centered on harnessing nanorobotics to address pressing challenges in healthcare, environmental sustainability, and various industries, pushing the boundaries of what is possible and transforming our world in profound ways.
The convergence of flexible electronics and wearable technology has ushered in a new era of personalized and connected experiences. Our research vision is dedicated to advancing the field of flexible wearable electronics, with the aim of creating innovative devices that seamlessly integrate into our daily lives, empower individuals, and revolutionize industries ranging from healthcare and sports to communication and fashion.
3D printing, also known as additive manufacturing, holds great promise for the fabrication and design of electrochemical devices. Its capability to produce complex geometries, customizable designs, and layered structures can be instrumental in revolutionizing the performance and manufacturability of batteries, supercapacitors, fuel cells, and more. Let's delve into the research vision for integrating 3D printing into electrochemical devices.
Electrochemistry is the driving force of modern technology – it represents the hearth of batteries in cars, of supercapacitors in airplanes, of large processes producing clean fuels such as hydrogen or of converting pollutants such as carbon dioxide to useful chemicals. We investigate basics of electrocatalysis of materials and we apply this knowledge in improving living conditions of humankind.