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Merck

Spectrally tunable infrared plasmonic F,Sn:In2O3 nanocrystal cubes.

The Journal of chemical physics (2020-01-10)
Shin Hum Cho, Kevin M Roccapriore, Chandriker Kavir Dass, Sandeep Ghosh, Junho Choi, Jungchul Noh, Lauren C Reimnitz, Sungyeon Heo, Kihoon Kim, Karen Xie, Brian A Korgel, Xiaoqin Li, Joshua R Hendrickson, Jordan A Hachtel, Delia J Milliron
RESUMO

A synthetic challenge in faceted metal oxide nanocrystals (NCs) is realizing tunable localized surface plasmon resonance (LSPR) near-field response in the infrared (IR). Cube-shaped nanoparticles of noble metals exhibit LSPR spectral tunability limited to visible spectral range. Here, we describe the colloidal synthesis of fluorine, tin codoped indium oxide (F,Sn:In2O3) NC cubes with tunable IR range LSPR for around 10 nm particle sizes. Free carrier concentration is tuned through controlled Sn dopant incorporation, where Sn is an aliovalent n-type dopant in the In2O3 lattice. F shapes the NC morphology into cubes by functioning as a surfactant on the {100} crystallographic facets. Cube shaped F,Sn:In2O3 NCs exhibit narrow, shape-dependent multimodal LSPR due to corner, edge, and face centered modes. Monolayer NC arrays are fabricated through a liquid-air interface assembly, further demonstrating tunable LSPR response as NC film nanocavities that can heighten near-field enhancement (NFE). The tunable F,Sn:In2O3 NC near-field is coupled with PbS quantum dots, via the Purcell effect. The detuning frequency between the nanocavity and exciton is varied, resulting in IR near-field dependent enhanced exciton lifetime decay. LSPR near-field tunability is directly visualized through IR range scanning transmission electron microscopy-electron energy loss spectroscopy (STEM-EELS). STEM-EELS mapping of the spatially confined near-field in the F,Sn:In2O3 NC array interparticle gap demonstrates elevated NFE tunability in the arrays.

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Sigma-Aldrich
Octane, reagent grade, 98%
Sigma-Aldrich
Tin(IV) fluoride