Nanorobot-Mediated Synchronized Neuron Activation

Abstract: Interactions between active materials lead to collective behavior and even intelligence beyond the capability of individuals. Such behaviors are prevalent in nature and can be observed in animal colonies, providing these species with diverse capacities for communication and cooperation. In artificial systems, however, collective intelligence systems interacting with biological entities remains unexplored. Herein, we describe black (B)-TiO 2 @N/Au nanorobots interacting through photocatalytic pure water splitti… Show more

“…Therefore, we further described the black (B)-TiO 2 @N/Au nanorobots. 49 The main purpose of studying this motor is to explore collective intelligent systems that effectively interact with biological entities. When these nanomotors were exposed to program controlled near-infrared (NIR) light, they showcased periodic swarming oscillation behavior due to electrophoresis induced by photolytic water decomposition.…”

Micro/nanomotors for neuromodulation

“…Therefore, we further described the black (B)-TiO 2 @N/Au nanorobots. 49 The main purpose of studying this motor is to explore collective intelligent systems that effectively interact with biological entities. When these nanomotors were exposed to program controlled near-infrared (NIR) light, they showcased periodic swarming oscillation behavior due to electrophoresis induced by photolytic water decomposition.…”

Micro/nanomotors for neuromodulation

Order, chaos, and dimensionality transition in a system of swarmalators