A plasmonic switch based on molecular machine-Au nanodisk complexes

Yue Bing Zheng, Ying Wei Yang, Lasse Jensen, Lei Fang, Bala Krishna Juluri, Amar H. Flood, Paul S. Weiss, J. Fraser Stoddart, Tony Jun Huang

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

A plasmonic switch is demonstrated with rotaxane-derivatized Au nanodisks. The molecule-nanodisk complexes exhibit redox-controlled reversible plasmon-based switching, suggesting that nanoscale movement with surface-bound molecular machines can be used as the active components of plasmonic devices.

Original languageEnglish (US)
Title of host publicationInternational Quantum Electronics Conference, IQEC 2009
PublisherOptical Society of America
ISBN (Print)9781557528698
StatePublished - Jan 1 2009
EventInternational Quantum Electronics Conference, IQEC 2009 - Baltimore, MD, United States
Duration: May 31 2009Jun 5 2009

Publication series

NameOptics InfoBase Conference Papers
ISSN (Electronic)2162-2701

Other

OtherInternational Quantum Electronics Conference, IQEC 2009
CountryUnited States
CityBaltimore, MD
Period5/31/096/5/09

Fingerprint

switches
Switches
Molecules
molecules
Oxidation-Reduction

All Science Journal Classification (ASJC) codes

  • Instrumentation
  • Atomic and Molecular Physics, and Optics

Cite this

Zheng, Y. B., Yang, Y. W., Jensen, L., Fang, L., Juluri, B. K., Flood, A. H., ... Huang, T. J. (2009). A plasmonic switch based on molecular machine-Au nanodisk complexes. In International Quantum Electronics Conference, IQEC 2009 (Optics InfoBase Conference Papers). Optical Society of America.
Zheng, Yue Bing ; Yang, Ying Wei ; Jensen, Lasse ; Fang, Lei ; Juluri, Bala Krishna ; Flood, Amar H. ; Weiss, Paul S. ; Fraser Stoddart, J. ; Huang, Tony Jun. / A plasmonic switch based on molecular machine-Au nanodisk complexes. International Quantum Electronics Conference, IQEC 2009. Optical Society of America, 2009. (Optics InfoBase Conference Papers).
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abstract = "A plasmonic switch is demonstrated with rotaxane-derivatized Au nanodisks. The molecule-nanodisk complexes exhibit redox-controlled reversible plasmon-based switching, suggesting that nanoscale movement with surface-bound molecular machines can be used as the active components of plasmonic devices.",
author = "Zheng, {Yue Bing} and Yang, {Ying Wei} and Lasse Jensen and Lei Fang and Juluri, {Bala Krishna} and Flood, {Amar H.} and Weiss, {Paul S.} and {Fraser Stoddart}, J. and Huang, {Tony Jun}",
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Zheng, YB, Yang, YW, Jensen, L, Fang, L, Juluri, BK, Flood, AH, Weiss, PS, Fraser Stoddart, J & Huang, TJ 2009, A plasmonic switch based on molecular machine-Au nanodisk complexes. in International Quantum Electronics Conference, IQEC 2009. Optics InfoBase Conference Papers, Optical Society of America, International Quantum Electronics Conference, IQEC 2009, Baltimore, MD, United States, 5/31/09.

A plasmonic switch based on molecular machine-Au nanodisk complexes. / Zheng, Yue Bing; Yang, Ying Wei; Jensen, Lasse; Fang, Lei; Juluri, Bala Krishna; Flood, Amar H.; Weiss, Paul S.; Fraser Stoddart, J.; Huang, Tony Jun.

International Quantum Electronics Conference, IQEC 2009. Optical Society of America, 2009. (Optics InfoBase Conference Papers).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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AU - Zheng, Yue Bing

AU - Yang, Ying Wei

AU - Jensen, Lasse

AU - Fang, Lei

AU - Juluri, Bala Krishna

AU - Flood, Amar H.

AU - Weiss, Paul S.

AU - Fraser Stoddart, J.

AU - Huang, Tony Jun

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AB - A plasmonic switch is demonstrated with rotaxane-derivatized Au nanodisks. The molecule-nanodisk complexes exhibit redox-controlled reversible plasmon-based switching, suggesting that nanoscale movement with surface-bound molecular machines can be used as the active components of plasmonic devices.

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Zheng YB, Yang YW, Jensen L, Fang L, Juluri BK, Flood AH et al. A plasmonic switch based on molecular machine-Au nanodisk complexes. In International Quantum Electronics Conference, IQEC 2009. Optical Society of America. 2009. (Optics InfoBase Conference Papers).