Scientific Sessions

Nanorobotics, at the forefront of nanotechnology and robotics, involves designing and controlling robots at the nanoscale to perform precise tasks in various fields. These robots, typically composed of nanoscale components such as nanosensors, actuators, and nanoparticles, offer unparalleled capabilities for manipulating matter at atomic and molecular levels. Applications of nanorobotics span medicine, where they are used for targeted drug delivery, nanoscale surgery, and diagnostic imaging at cellular resolution. In manufacturing and assembly, nanorobots enable precise manipulation and construction of nanoscale structures and devices, advancing fields like electronics, materials science, and renewable energy. Challenges include developing reliable power sources, ensuring biocompatibility for medical applications, and navigating ethical considerations regarding autonomous operation and safety protocols. Ongoing research focuses on enhancing nanorobot functionality, integrating with biological systems, and developing advanced control and navigation techniques using artificial intelligence and machine learning.