We report a new type of brain-machine interface enabling a human operator to control nanometer-size robots inside a living animal by brain activity. Recorded EEG patterns are recognized online by an algorithm, which in turn controls the state of an electromagnetic field. The field induces the local heating of billions of mechanically-actuating DNA origami robots tethered to metal nanoparticles, leading to their reversible activation and subsequent exposure of a bioactive payload. As a proof of principle we demonstrate activation of DNA robots to cause a cellular effect inside the insect Blaberus discoidalis, by a cognitively straining task. This technology enables the online switching of a bioactive molecule on and off in response to a subj...
Presentation given in the Wilby Room of the Georgia Tech Library and Information Center.What changes...
Over the last decade, remarkable achievements in nanofabrication technology has led to the developme...
Nanobiosensing with target amplification is one such example. In this scenario, "activator" nanopart...
These authors contributed equally to this work. Biological systems are collections of discrete molec...
Recent experiments have indicated the possibility to use the brain electrical activity to directly c...
At present there exists a large gap in size, performance, adaptability and robust-ness between natur...
Biological systems are collections of discrete molecular objects that move around and collide with e...
Recent experiments have shown the near possibility to use the brain electrical activity to directly ...
The intelligent controlling mechanism of a typical mobile robot is usually a computer system. Some r...
AbstractUbiquitous robotics augments the capabilities of one or more robots by leveraging ubiquitous...
M-bots are small robots that can be actuated and localized inside the human body to aid in illness d...
Brain-robot interface (BRI) has been a growing field of innovative research and development in cogni...
Living systems rely on ions and molecules for gathering, elaborating and storing information, as wel...
Abstract—Brain activity recorded non-invasively is sufficient to control a mobile robot if advanced ...
oai:ojs3.localhost:article/11The intelligent controlling mechanism of a typical mobile robot is usua...
Presentation given in the Wilby Room of the Georgia Tech Library and Information Center.What changes...
Over the last decade, remarkable achievements in nanofabrication technology has led to the developme...
Nanobiosensing with target amplification is one such example. In this scenario, "activator" nanopart...
These authors contributed equally to this work. Biological systems are collections of discrete molec...
Recent experiments have indicated the possibility to use the brain electrical activity to directly c...
At present there exists a large gap in size, performance, adaptability and robust-ness between natur...
Biological systems are collections of discrete molecular objects that move around and collide with e...
Recent experiments have shown the near possibility to use the brain electrical activity to directly ...
The intelligent controlling mechanism of a typical mobile robot is usually a computer system. Some r...
AbstractUbiquitous robotics augments the capabilities of one or more robots by leveraging ubiquitous...
M-bots are small robots that can be actuated and localized inside the human body to aid in illness d...
Brain-robot interface (BRI) has been a growing field of innovative research and development in cogni...
Living systems rely on ions and molecules for gathering, elaborating and storing information, as wel...
Abstract—Brain activity recorded non-invasively is sufficient to control a mobile robot if advanced ...
oai:ojs3.localhost:article/11The intelligent controlling mechanism of a typical mobile robot is usua...
Presentation given in the Wilby Room of the Georgia Tech Library and Information Center.What changes...
Over the last decade, remarkable achievements in nanofabrication technology has led to the developme...
Nanobiosensing with target amplification is one such example. In this scenario, "activator" nanopart...