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pro vyhledávání: '"Stephanie Lauback"'
Autor:
Stephanie Lauback, Kara R. Mattioli, Alexander E. Marras, Maxim Armstrong, Thomas P. Rudibaugh, Ratnasingham Sooryakumar, Carlos E. Castro
Publikováno v:
Nature Communications, Vol 9, Iss 1, Pp 1-11 (2018)
DNA molecular machines hold promise for biological nanotechnology, but how to actuate them in a fast and programmable manner remains challenging. Here, Lauback et al. demonstrate direct manipulation of DNA origami assemblies via a micrometer-long sti
Externí odkaz:
https://doaj.org/article/12a5b4303f2c454cb20a60acd75c1dd5
Autor:
Maxim Armstrong, Thomas P. Rudibaugh, Ratnasingham Sooryakumar, Carlos E. Castro, Alexander E. Marras, Stephanie Lauback, Kara R. Mattioli
Publikováno v:
Nature Communications, Vol 9, Iss 1, Pp 1-11 (2018)
Nature Communications
Nature Communications
DNA nanotechnology has enabled complex nanodevices, but the ability to directly manipulate systems with fast response times remains a key challenge. Current methods of actuation are relatively slow and only direct devices into one or two target confi
Autor:
Jessica O. Winter, G. Vieira, Michael Prikockis, M. Howdyshell, Ratnasingham Sooryakumar, Stephanie Lauback, Kalpesh D. Mahajan
Publikováno v:
IEEE Transactions on Magnetics. 50:1-7
Technologies that control matter at the nano- and micro-scale are crucial to realizing engineered systems that can assemble, transport, and manipulate materials at submicron length scales. Two principles: (1) the domain wall structure of patterned ma