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  • Determination of a localized surface plasmon resonance mode of Cu7S4 nanodisks by plasmon coupling.

Determination of a localized surface plasmon resonance mode of Cu7S4 nanodisks by plasmon coupling.

Faraday discussions (2015-05-01)
L Chen, M Sakamoto, R Sato, T Teranishi
ZUSAMMENFASSUNG

Plasmon properties such as peak position, extinction cross-section and local electric field intensity are strongly dependent on excited, localized surface plasmon resonance (LSPR) modes. In non-spherical copper chalcogenide nanoparticles, assignment of the LSPR peaks to the corresponding oscillation modes has been controversial and requires experimental verification. We determined the in-plane LSPR mode of roxbyite Cu7S4 nanodisks from the plasmon coupling effect of nanodisks in solution. Compared with individual Cu7S4 nanodisks, self-assembled Cu7S4 nanodisk arrays in chloroform exhibited a blue-shifted LSPR peak with weaker optical density. This strongly suggests that the singular LSPR peak in the near-infrared region mainly originates from the in-plane oscillation mode. In addition, we demonstrate that the same LSPR peak can be readily tuned by controlling the number of disks in the array.

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Oleylamin, technical grade, 70%
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1-Dodecanthiol, ≥98%
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Toluol, anhydrous, 99.8%
SAFC
Oleylamin, ≥98% (primary amine)
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Ethyl alcohol, Pure, 190 proof, ACS spectrophotometric grade, 95.0%
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Chloroform, anhydrous, ≥99%, contains 0.5-1.0% ethanol as stabilizer
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Chloroform, ≥99%, PCR Reagent, contains amylenes as stabilizer
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Chloroform, anhydrous, contains amylenes as stabilizer, ≥99%