Stretch-induced plasmonic anisotropy of self-assembled gold nanoparticle mats

Matthew G. Millyard; Fu Min Huang; Richard White; Elisabetta Spigone; Jani Kivioja; Jeremy J. Baumberg

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Stretch-induced plasmonic anisotropy of self-assembled gold nanoparticle mats

机译：自组装金纳米粒子垫的拉伸诱导的等离子体各向异性

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Close-packed monolayers of 20 nm Au nanoparticles are self-assembled at hexane/water interfaces and transferred to elastic substrates. Stretching the resulting nanoparticle mats provides active and reversible tuning of their plasmonic properties, with a clear polarization dependance. Both uniaxial and biaxial strains induce strong blue shifts in the plasmonic resonances. This matches theoretical simulations and indicates that plasmonic coupling at nanometer scale distances is responsible for the observed spectral tuning. Such stretch-tunable metal nanoparticle mats can be exploited for the development of optical devices, such as flexible colour niters and molecular sensors.

机译：20 nm Au纳米颗粒的紧密堆积单分子层在己烷/水界面处自组装，并转移到弹性基材上。拉伸所得的纳米颗粒垫可提供对它们的等离子体性能的主动和可逆调节，并具有明显的极化依赖性。单轴应变和双轴应变都在等离子体共振中引起强烈的蓝移。这与理论模拟相符，表明纳米尺度距离的等离子体耦合是观察到的光谱调谐的原因。这种可拉伸调节的金属纳米颗粒垫可用于开发光学装置，例如柔性彩色显示器和分子传感器。

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来源
《Applied Physics Letters》 |2012年第7期|p.073101.1-073101.3|共3页
作者
Matthew G. Millyard; Fu Min Huang; Richard White; Elisabetta Spigone; Jani Kivioja; Jeremy J. Baumberg;
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作者单位

Nanophotonics Centre, Cavendish Laboratory, University of Cambridge, Cambridge, CB3 OHE,United Kingdom;

Nanophotonics Centre, Cavendish Laboratory, University of Cambridge, Cambridge, CB3 OHE,United Kingdom;

Nokia Research Center, Broers Building, 21 J J Thomson Avenue, Cambridge CB3 OFA, United Kingdom;

Nokia Research Center, Broers Building, 21 J J Thomson Avenue, Cambridge CB3 OFA, United Kingdom;

Nokia Research Center, Broers Building, 21 J J Thomson Avenue, Cambridge CB3 OFA, United Kingdom;

Nanophotonics Centre, Cavendish Laboratory, University of Cambridge, Cambridge, CB3 OHE,United Kingdom;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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Stretch-induced plasmonic anisotropy of self-assembled gold nanoparticle mats

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