Tunable Near-Infrared Localized Surface Plasmon Resonance of F, In-Codoped CdO Nanocrystals.

ACS Appl Mater Interfaces

IIT-NCH-Fondazione Istituto Italiano di Tecnologia-Nanochemistry Department , via Morego 30 , 16163 Genova , Italy.

Published: October 2019

AI Article Synopsis

  • Nanocrystals (NCs) of F, In-codoped CdO (FICO) exhibit localized surface plasmon resonance (LSPR) in the near-infrared (NIR) range, making them ideal for next-generation electrochromic "smart windows."
  • By adjusting dopant concentrations in FICO NCs, researchers can fine-tune the LSPR, leading to highly transparent mesoporous thin films that maintain optimal optical and electrical properties without scattering.
  • These FICO NC-based films can dynamically control LSPR frequencies through electrochemical doping, allowing for selective regulation of NIR light transmittance, which can significantly reduce solar heat gain while preserving visible light clarity.

Article Abstract

Nanocrystals (NCs) of transparent conducting oxides with a localized surface plasmon resonance (LSPR) in the near-infrared (NIR) spectral region show promising electrochromic properties for the development of a new generation of dynamic "smart windows". In this regard, we exploit thin films of F, In-codoped CdO (FICO) NCs as active coatings for electrochromic devices. The control over the dopants concentration in FICO NCs results in fine tuning of their LSPR across the NIR region of the electromagnetic spectrum. Highly transparent mesoporous electrodes were prepared from colloidal FICO NCs by in situ ligand exchange of the pristine organic capping ligands. This approach preserves the optical and electrical properties of native NCs and delivers highly homogeneous, nonscattering films with a good electronic coupling between the NCs. We achieved a dynamic control over the LSPR frequency by reversible electrochemical doping, hence a spectrally selective modulation of the optical transmittance in the NIR region of the solar spectrum, which carries nearly 50% of the whole solar heat. Spectroelectrochemical characterization, coloration efficiency, and switching kinetics results indicate that thin film based on FICO NCs are potential candidates for plasmonic electrochromic applications. Moreover, the high electron mobility and wide optical bandgap of FICO makes NCs of this material suitable for large-area devices capable of dynamically controlling the heat load coming from the solar infrared radiation, without affecting the visible light transmittance.

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Source
http://dx.doi.org/10.1021/acsami.9b12890DOI Listing

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