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Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties

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Zeitschriftentitel: Advanced Functional Materials
Personen und Körperschaften: Luo, Ming, Ruditskiy, Aleksey, Peng, Hsin‐Chieh, Tao, Jing, Figueroa‐Cosme, Legna, He, Zhike, Xia, Younan
In: Advanced Functional Materials, 26, 2016, 8, S. 1209-1216
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Electrochemistry
Condensed Matter Physics
Biomaterials
Electronic, Optical and Magnetic Materials
author_facet Luo, Ming
Ruditskiy, Aleksey
Peng, Hsin‐Chieh
Tao, Jing
Figueroa‐Cosme, Legna
He, Zhike
Xia, Younan
Luo, Ming
Ruditskiy, Aleksey
Peng, Hsin‐Chieh
Tao, Jing
Figueroa‐Cosme, Legna
He, Zhike
Xia, Younan
author Luo, Ming
Ruditskiy, Aleksey
Peng, Hsin‐Chieh
Tao, Jing
Figueroa‐Cosme, Legna
He, Zhike
Xia, Younan
spellingShingle Luo, Ming
Ruditskiy, Aleksey
Peng, Hsin‐Chieh
Tao, Jing
Figueroa‐Cosme, Legna
He, Zhike
Xia, Younan
Advanced Functional Materials
Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
Electrochemistry
Condensed Matter Physics
Biomaterials
Electronic, Optical and Magnetic Materials
author_sort luo, ming
spelling Luo, Ming Ruditskiy, Aleksey Peng, Hsin‐Chieh Tao, Jing Figueroa‐Cosme, Legna He, Zhike Xia, Younan 1616-301X 1616-3028 Wiley Electrochemistry Condensed Matter Physics Biomaterials Electronic, Optical and Magnetic Materials http://dx.doi.org/10.1002/adfm.201504217 <jats:p>The use of seed‐mediated growth as a versatile approach to the synthesis of penta‐twinned Cu nanorods with uniform diameters and controllable aspect ratios is reported. The success of this approach relies on our recent synthesis of uniform Pd decahedra, with sizes in the range of 6–20 nm. The Pd decahedral seeds can direct the heterogeneous nucleation and growth of Cu along the fivefold axis to produce nanorods with uniform diameters defined by the lateral dimension of the original seeds. Due to a large mismatch in the lattice constants between Cu and Pd (7.1%), the deposited Cu is forced to grow along one side of the Pd decahedral seed, generating a nanorod with an asymmetric distribution of Cu, with the Pd seed situated at one of the two ends. According to extinction spectra, the as‐obtained Cu nanorods can be stored in water under the ambient conditions for at least six months without noticeable degradation. This excellent stability allows us to systematically investigate the size‐dependent surface plasmon resonance properties of the penta‐twinned Cu nanorods. With the nanorod transverse modes positioned at 560 nm, the longitudinal modes can be readily tuned from the visible to the near‐infrared region by controlling the aspect ratio.</jats:p> Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties Advanced Functional Materials
doi_str_mv 10.1002/adfm.201504217
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title Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_unstemmed Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_full Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_fullStr Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_full_unstemmed Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_short Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_sort penta‐twinned copper nanorods: facile synthesis via seed‐mediated growth and their tunable plasmonic properties
topic Electrochemistry
Condensed Matter Physics
Biomaterials
Electronic, Optical and Magnetic Materials
url http://dx.doi.org/10.1002/adfm.201504217
publishDate 2016
physical 1209-1216
description <jats:p>The use of seed‐mediated growth as a versatile approach to the synthesis of penta‐twinned Cu nanorods with uniform diameters and controllable aspect ratios is reported. The success of this approach relies on our recent synthesis of uniform Pd decahedra, with sizes in the range of 6–20 nm. The Pd decahedral seeds can direct the heterogeneous nucleation and growth of Cu along the fivefold axis to produce nanorods with uniform diameters defined by the lateral dimension of the original seeds. Due to a large mismatch in the lattice constants between Cu and Pd (7.1%), the deposited Cu is forced to grow along one side of the Pd decahedral seed, generating a nanorod with an asymmetric distribution of Cu, with the Pd seed situated at one of the two ends. According to extinction spectra, the as‐obtained Cu nanorods can be stored in water under the ambient conditions for at least six months without noticeable degradation. This excellent stability allows us to systematically investigate the size‐dependent surface plasmon resonance properties of the penta‐twinned Cu nanorods. With the nanorod transverse modes positioned at 560 nm, the longitudinal modes can be readily tuned from the visible to the near‐infrared region by controlling the aspect ratio.</jats:p>
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author Luo, Ming, Ruditskiy, Aleksey, Peng, Hsin‐Chieh, Tao, Jing, Figueroa‐Cosme, Legna, He, Zhike, Xia, Younan
author_facet Luo, Ming, Ruditskiy, Aleksey, Peng, Hsin‐Chieh, Tao, Jing, Figueroa‐Cosme, Legna, He, Zhike, Xia, Younan, Luo, Ming, Ruditskiy, Aleksey, Peng, Hsin‐Chieh, Tao, Jing, Figueroa‐Cosme, Legna, He, Zhike, Xia, Younan
author_sort luo, ming
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description <jats:p>The use of seed‐mediated growth as a versatile approach to the synthesis of penta‐twinned Cu nanorods with uniform diameters and controllable aspect ratios is reported. The success of this approach relies on our recent synthesis of uniform Pd decahedra, with sizes in the range of 6–20 nm. The Pd decahedral seeds can direct the heterogeneous nucleation and growth of Cu along the fivefold axis to produce nanorods with uniform diameters defined by the lateral dimension of the original seeds. Due to a large mismatch in the lattice constants between Cu and Pd (7.1%), the deposited Cu is forced to grow along one side of the Pd decahedral seed, generating a nanorod with an asymmetric distribution of Cu, with the Pd seed situated at one of the two ends. According to extinction spectra, the as‐obtained Cu nanorods can be stored in water under the ambient conditions for at least six months without noticeable degradation. This excellent stability allows us to systematically investigate the size‐dependent surface plasmon resonance properties of the penta‐twinned Cu nanorods. With the nanorod transverse modes positioned at 560 nm, the longitudinal modes can be readily tuned from the visible to the near‐infrared region by controlling the aspect ratio.</jats:p>
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spelling Luo, Ming Ruditskiy, Aleksey Peng, Hsin‐Chieh Tao, Jing Figueroa‐Cosme, Legna He, Zhike Xia, Younan 1616-301X 1616-3028 Wiley Electrochemistry Condensed Matter Physics Biomaterials Electronic, Optical and Magnetic Materials http://dx.doi.org/10.1002/adfm.201504217 <jats:p>The use of seed‐mediated growth as a versatile approach to the synthesis of penta‐twinned Cu nanorods with uniform diameters and controllable aspect ratios is reported. The success of this approach relies on our recent synthesis of uniform Pd decahedra, with sizes in the range of 6–20 nm. The Pd decahedral seeds can direct the heterogeneous nucleation and growth of Cu along the fivefold axis to produce nanorods with uniform diameters defined by the lateral dimension of the original seeds. Due to a large mismatch in the lattice constants between Cu and Pd (7.1%), the deposited Cu is forced to grow along one side of the Pd decahedral seed, generating a nanorod with an asymmetric distribution of Cu, with the Pd seed situated at one of the two ends. According to extinction spectra, the as‐obtained Cu nanorods can be stored in water under the ambient conditions for at least six months without noticeable degradation. This excellent stability allows us to systematically investigate the size‐dependent surface plasmon resonance properties of the penta‐twinned Cu nanorods. With the nanorod transverse modes positioned at 560 nm, the longitudinal modes can be readily tuned from the visible to the near‐infrared region by controlling the aspect ratio.</jats:p> Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties Advanced Functional Materials
spellingShingle Luo, Ming, Ruditskiy, Aleksey, Peng, Hsin‐Chieh, Tao, Jing, Figueroa‐Cosme, Legna, He, Zhike, Xia, Younan, Advanced Functional Materials, Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties, Electrochemistry, Condensed Matter Physics, Biomaterials, Electronic, Optical and Magnetic Materials
title Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_full Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_fullStr Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_full_unstemmed Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_short Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
title_sort penta‐twinned copper nanorods: facile synthesis via seed‐mediated growth and their tunable plasmonic properties
title_unstemmed Penta‐Twinned Copper Nanorods: Facile Synthesis via Seed‐Mediated Growth and Their Tunable Plasmonic Properties
topic Electrochemistry, Condensed Matter Physics, Biomaterials, Electronic, Optical and Magnetic Materials
url http://dx.doi.org/10.1002/adfm.201504217