Nanomedicine Art Gallery
|Title:||Scaffolding Framework for Parts-Assembly Nanorobot|
|Artist(s):||J. Storrs Hall|
|Image Size:||43,045 bytes||[CLICK to download]|
|Image Dimensions:||683 X 455 pixels|
|Image Size:||45,070 bytes||[CLICK to download]|
|Image Dimensions:||711 X 519 pixels|
|Image Palette:||Black & White|
The motile parts-assembly nanorobot (Image 133) has the ability to engage, move and turn within the framework (Image 134), and to use its two manipulators for parts handling in a manner consistent with current well-understood practices of macroscale parts-assembly robots. Outward clamps in the rear of the nanorobot engage the framework struts, providing not only physical support but positional registration as well as power and control signals. Early generations of the device will have no onboard control but rather will obey signals transmitted across the framework, which is just a simple three-dimensional mesh, originally with conductive paths for only a single circuit. Development of more careful designs with self-assisted assembly and a judicious selection of jigs and clamps may obviate the duplication of manipulators and permit a one-armed design. Nanodevices similar to this may help to build the earliest generations of medical nanorobots.
|Copyright Info:||© Copyright 1998, 1999, by J. Storrs Hall and IOP Publishing Ltd. For reprint permission, please contact either J. Storrs Hall at the Institute for Molecular Manufacturing, 555 Bryant Street #253, Palo Alto, CA 94301, email: firstname.lastname@example.org; or IOP Publishing Ltd., Dirac House, Temple Back, Bristol BS1 6BE, U.K. (http://www.iop.org) or at email@example.com.|
|Print Source(s):||J. Storrs Hall, "Architectural considerations for self-replicating manufacturing systems," Nanotechnology 10 (September 1999):323-330.|
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