Cellular-Level Surgery Using Nano Robots
Identifieur interne : 002255 ( Ncbi/Checkpoint ); précédent : 002254; suivant : 002256Cellular-Level Surgery Using Nano Robots
Auteurs : Bo Song [États-Unis] ; Ruiguo Yang [États-Unis] ; Ning Xi [États-Unis] ; Kevin Charles Patterson [États-Unis] ; Chengeng Qu [États-Unis] ; King Wai Chiu Lai [États-Unis]Source :
- Journal of laboratory automation [ 2211-0682 ] ; 2012.
Abstract
The atomic force microscope (AFM) is a popular instrument for studying the nano world. AFM is naturally suitable for imaging living samples and measuring mechanical properties. In this article, we propose a new concept of an AFM-based nano robot that can be applied for cellular-level surgery on living samples. The nano robot has multiple functions of imaging, manipulation, characterizing mechanical properties, and tracking. In addition, the technique of tip functionalization allows the nano robot the ability for precisely delivering a drug locally. Therefore, the nano robot can be used for conducting complicated nano surgery on living samples, such as cells and bacteria. Moreover, to provide a user-friendly interface, the software in this nano robot provides a “videolized” visual feedback for monitoring the dynamic changes on the sample surface. Both the operation of nano surgery and observation of the surgery results can be simultaneously achieved. This nano robot can be easily integrated with extra modules that have the potential applications of characterizing other properties of samples such as local conductance and capacitance.
Url:
DOI: 10.1177/2211068212460665
PubMed: 23015517
PubMed Central: 4190063
Affiliations:
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PMC:4190063Le document en format XML
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<front><div type="abstract" xml:lang="en"><p id="P1">The atomic force microscope (AFM) is a popular instrument for studying the nano world. AFM is naturally suitable for imaging living samples and measuring mechanical properties. In this article, we propose a new concept of an AFM-based nano robot that can be applied for cellular-level surgery on living samples. The nano robot has multiple functions of imaging, manipulation, characterizing mechanical properties, and tracking. In addition, the technique of tip functionalization allows the nano robot the ability for precisely delivering a drug locally. Therefore, the nano robot can be used for conducting complicated nano surgery on living samples, such as cells and bacteria. Moreover, to provide a user-friendly interface, the software in this nano robot provides a “videolized” visual feedback for monitoring the dynamic changes on the sample surface. Both the operation of nano surgery and observation of the surgery results can be simultaneously achieved. This nano robot can be easily integrated with extra modules that have the potential applications of characterizing other properties of samples such as local conductance and capacitance.</p>
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