Litcius/Paper detail

Surface-Facet-Dependent Electrochromic Properties of WO<sub>3</sub> Nanorod Thin Films: Implications for Smart Windows

R. Colby Evans, Rachelle Austin, Rebecca C. Miller, Alexander D. Preston, Zach N. Nilsson, Kaka Ma, Justin B. Sambur

2021ACS Applied Nano Materials21 citationsDOI

Abstract

The influence of nanoparticle surface facets on electrochromic properties remains largely unexplored in nanostructured “smart” materials. Here, we explore how surface facets influence the coloration efficiency (CE) and long-term optical density (OD) stability of hexagonal WO3 nanorod (h-WO3NR) thin films. We synthesized two h-WO3NR samples with distinct surface facet orientations and studied how the electrochemical, electrochromic, electrical, and surface chemistry properties change after long-term cycling. The sample with unique {120} facets exhibited reversible optical switching after 500 cycles and negligible variation in interfacial charge transfer resistance. The (120) surface features an open network of square window channels that may enable reversible ion transport and reduced ion trapping, enhancing the optical switching stability. However, the {120}-dominant sample exhibited lower CE than the {100}-dominant sample. The reduced optical density changes in the {120}-dominant sample could be due to a greater fraction of optically inactive trigonal cavity sites on the {001} end-caps. The results indicate surface facet and particle morphology engineering are viable strategies to enhance the CE and long-term stability/lifetime in electrochromic thin films for smart window applications.

Topics & Concepts

ElectrochromismNanorodFacet (psychology)Materials scienceThin filmOptoelectronicsNanotechnologySurface (topology)ChemistryElectrodeMathematicsSocial psychologyPhysical chemistryBig Five personality traitsPersonalityPsychologyGeometryTransition Metal Oxide NanomaterialsConducting polymers and applicationsGas Sensing Nanomaterials and Sensors