Nanobots are microscopic, self-replicating machines capable of performing precise, high-speed operations at the cellular and molecular levels. They can be deployed for a wide range of functions, from rapid medical intervention to on-the-fly fabrication and complex neural manipulation. While incredibly versatile, their small size makes them sensitive to interference and resource-intensive, requiring careful management to avoid overloading their microscopic networks.
Users of nanobot modules are often precise, strategic thinkers who leverage the flexibility and adaptability of these tiny machines to control their environment, heal allies, or manipulate enemies. They often carry small, wrist-mounted launchers or internal reservoirs of nanobots, ready to deploy at a moment’s notice.
To others, nanobot users can appear unsettlingly calm and precise, their movements accompanied by the faint hum of microscopic machinery. When active, their presence is often marked by the soft shimmer of self-assembling constructs or the quiet, mechanical whir of billions of microscopic engines at work.