NANOROBOT AND CONTROL METHOD THEREFOR

A nanorobot, comprising: a shell (110), and a sodium-potassium pump (120), a field driving element (130) and a potential susceptor (140), which are provided in the shell (110), and an ultrasonic driving element (150), which is provided at a tail portion of the shell (110), wherein the sodium-potassi...

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Bibliographic Details
Main Authors HUANG, Hongren, WANG, Feng
Format Patent
LanguageChinese
English
French
Published 30.05.2024
Subjects
CHAMBERS PROVIDED WITH MANIPULATION DEVICES
DIAGNOSIS
HAND TOOLS
HUMAN NECESSITIES
HYGIENE
IDENTIFICATION
MANIPULATORS
MEDICAL OR VETERINARY SCIENCE
PERFORMING OPERATIONS
PORTABLE POWER-DRIVEN TOOLS
SURGERY
TRANSPORTING
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Summary:A nanorobot, comprising: a shell (110), and a sodium-potassium pump (120), a field driving element (130) and a potential susceptor (140), which are provided in the shell (110), and an ultrasonic driving element (150), which is provided at a tail portion of the shell (110), wherein the sodium-potassium pump (120) is used for pumping extracellular high-concentration sodium ions into a matrix inside the shell (110), the field driving element (130) is used for driving the nanorobot to migrate toward an axon start segment, the potential susceptor (140) is used for recognizing identity information of a neuron, and the ultrasonic driving element (150) is used for driving, under ultrasonic waves of an external field, the nanorobot to move. The nanorobot carries a modified reverse-acting sodium-potassium pump (120), can continuously use a body's own ionic concentration change over a long period of time to achieve the regulation and control of neural activity, and can be widely applied to intervention in various neurol
Bibliography:Application Number: WO2022CN134040