Distance-mediated plasmonic dimers for reusable colorimetric switches: A measurable peak shift of more than 60 nm

Longhua Guo; Abdul Rahim Ferhan; Hailan Chen; Changming Li; Guonan Chen; Seungpyo Hong; Dong Hwan Kim

doi:10.1002/smll.201201061

Distance-mediated plasmonic dimers for reusable colorimetric switches: A measurable peak shift of more than 60 nm

Longhua Guo, Abdul Rahim Ferhan, Hailan Chen, Changming Li, Guonan Chen, Seungpyo Hong, Dong Hwan Kim

Department of Pharmacy

Research output: Contribution to journal › Article › peer-review

60 Citations (Scopus)

Abstract

The first reconfigurable colorimetric DNA switches based on target DNA binding are reported. This DNA binding actuates a change in the interparticle distance between gold nanoparticle dimers. A significant spectral shift of 68 nm is achievable from on-off switching. The reconfigurability is possible owing to thiol and EDC-imidazole coupling which anchors the DNA linkers to the nanoparticles. The huge spectral shift allows the unaided eye to observe single target biomolecular binding event in real time under a darkfield microscope. The limit-of-detection for target molecules in PBS and human serum are 10 ^-13 M and 10^-11 M respectively. An improved fabrication strategy via asymmetric functionalization is also described, assisted by solid phase synthesis which minimizes the formation of trimers and multimers.

Original language	English
Pages (from-to)	234-240
Number of pages	7
Journal	Small
Volume	9
Issue number	2
DOIs	https://doi.org/10.1002/smll.201201061
Publication status	Published - 2013 Jan 28

All Science Journal Classification (ASJC) codes

Biotechnology
Biomaterials
Chemistry(all)
Materials Science(all)

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10.1002/smll.201201061

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title = "Distance-mediated plasmonic dimers for reusable colorimetric switches: A measurable peak shift of more than 60 nm",

abstract = "The first reconfigurable colorimetric DNA switches based on target DNA binding are reported. This DNA binding actuates a change in the interparticle distance between gold nanoparticle dimers. A significant spectral shift of 68 nm is achievable from on-off switching. The reconfigurability is possible owing to thiol and EDC-imidazole coupling which anchors the DNA linkers to the nanoparticles. The huge spectral shift allows the unaided eye to observe single target biomolecular binding event in real time under a darkfield microscope. The limit-of-detection for target molecules in PBS and human serum are 10 -13 M and 10-11 M respectively. An improved fabrication strategy via asymmetric functionalization is also described, assisted by solid phase synthesis which minimizes the formation of trimers and multimers.",

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AU - Guo, Longhua

AU - Ferhan, Abdul Rahim

AU - Chen, Hailan

AU - Li, Changming

AU - Chen, Guonan

AU - Hong, Seungpyo

AU - Kim, Dong Hwan

PY - 2013/1/28

Y1 - 2013/1/28

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AB - The first reconfigurable colorimetric DNA switches based on target DNA binding are reported. This DNA binding actuates a change in the interparticle distance between gold nanoparticle dimers. A significant spectral shift of 68 nm is achievable from on-off switching. The reconfigurability is possible owing to thiol and EDC-imidazole coupling which anchors the DNA linkers to the nanoparticles. The huge spectral shift allows the unaided eye to observe single target biomolecular binding event in real time under a darkfield microscope. The limit-of-detection for target molecules in PBS and human serum are 10 -13 M and 10-11 M respectively. An improved fabrication strategy via asymmetric functionalization is also described, assisted by solid phase synthesis which minimizes the formation of trimers and multimers.

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Distance-mediated plasmonic dimers for reusable colorimetric switches: A measurable peak shift of more than 60 nm

Abstract

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