A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function

A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function

Controlled operation of individual molecular machines on a larger scale, 10-100 nm, remains challenging. Here, Kuzyk et al.demonstrate a light-driven plasmonic nanosystem that can amplify the molecular motion of azobenzene through a host nanostructure and translates it into reversible chiroptical re...

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Main Authors: Anton Kuzyk, Yangyang Yang, Xiaoyang Duan, Simon Stoll, Alexander O. Govorov, Hiroshi Sugiyama, Masayuki Endo, Na Liu
Format: Article
Language:English
Published: Nature Publishing Group 2016-02-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms10591
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spelling doaj-62eee1c6d4334ec68788d0ebd43bb1482021-05-11T10:53:18ZengNature Publishing GroupNature Communications2041-17232016-02-01711610.1038/ncomms10591A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical functionAnton Kuzyk0Yangyang Yang1Xiaoyang Duan2Simon Stoll3Alexander O. Govorov4Hiroshi Sugiyama5Masayuki Endo6Na Liu7Max Planck Institute for Intelligent SystemsInstitute for Integrated Cell-Material Sciences (WPI-iCeMS), Kyoto University, Yoshida-ushinomiyachoMax Planck Institute for Intelligent SystemsMax Planck Institute for Intelligent SystemsDepartment of Physics and Astronomy, Ohio UniversityInstitute for Integrated Cell-Material Sciences (WPI-iCeMS), Kyoto University, Yoshida-ushinomiyachoInstitute for Integrated Cell-Material Sciences (WPI-iCeMS), Kyoto University, Yoshida-ushinomiyachoMax Planck Institute for Intelligent SystemsControlled operation of individual molecular machines on a larger scale, 10-100 nm, remains challenging. Here, Kuzyk et al.demonstrate a light-driven plasmonic nanosystem that can amplify the molecular motion of azobenzene through a host nanostructure and translates it into reversible chiroptical response.https://doi.org/10.1038/ncomms10591
collection DOAJ
language English
format Article
sources DOAJ
author Anton Kuzyk
Yangyang Yang
Xiaoyang Duan
Simon Stoll
Alexander O. Govorov
Hiroshi Sugiyama
Masayuki Endo
Na Liu
spellingShingle Anton Kuzyk
Yangyang Yang
Xiaoyang Duan
Simon Stoll
Alexander O. Govorov
Hiroshi Sugiyama
Masayuki Endo
Na Liu
A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function
Nature Communications
author_facet Anton Kuzyk
Yangyang Yang
Xiaoyang Duan
Simon Stoll
Alexander O. Govorov
Hiroshi Sugiyama
Masayuki Endo
Na Liu
author_sort Anton Kuzyk
title A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function
title_short A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function
title_full A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function
title_fullStr A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function
title_full_unstemmed A light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function
title_sort light-driven three-dimensional plasmonic nanosystem that translates molecular motion into reversible chiroptical function
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2016-02-01
description Controlled operation of individual molecular machines on a larger scale, 10-100 nm, remains challenging. Here, Kuzyk et al.demonstrate a light-driven plasmonic nanosystem that can amplify the molecular motion of azobenzene through a host nanostructure and translates it into reversible chiroptical response.
url https://doi.org/10.1038/ncomms10591
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