Nanostructured inorganic electrochromic materials for light applications

Zhang, Wu; Li, Haizeng; Hopmann, Eric; Elezzabi, A. Y.

doi:10.1515/nanoph-2020-0474

Cited by 111 publications

(100 citation statements)

References 189 publications

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“… 16 Furthermore, WO 3 has proven stable enough for use in commercial devices such as smart windows. 4 …”

Section: Introductionmentioning

confidence: 99%

“…The two most fundamental properties for good image quality are brightness (which translates to reflectance for electronic paper) and chromaticity (the color purity measured as the gamut in the CIE). 5 Although many innovative and promising nanoscale designs have been presented recently, 4 the colors may be limited to the green-red spectral region 11 and/or the reflectance is low. 10 In fact, the aspect of brightness is often neglected: if absolute reflectance values are presented at all, it is not explained properly how they were measured.…”

Section: Introductionmentioning

confidence: 99%

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Electrochromic Inorganic Nanostructures with High Chromaticity and Superior Brightness

et al. 2021

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The possibility of actively controlling structural colors has recently attracted a lot of attention, in particular for new types of reflective displays (electronic paper). However, it has proven challenging to achieve good image quality in such devices, mainly because many subpixels are necessary and the semitransparent counter electrodes lower the total reflectance. Here we present an inorganic electrochromic nanostructure based on tungsten trioxide, gold, and a thin platinum mirror. The platinum reflector provides a wide color range and makes it possible to “reverse” the device design so that electrolyte and counter electrode can be placed behind the nanostructures with respect to the viewer. Importantly, this makes it possible to maintain high reflectance regardless of how the electrochemical cell is constructed. We show that our nanostructures clearly outperform the latest commercial color e-reader in terms of both color range and brightness.

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“… 16 Furthermore, WO 3 has proven stable enough for use in commercial devices such as smart windows. 4 …”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Electrochromic Inorganic Nanostructures with High Chromaticity and Superior Brightness

et al. 2021

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“…Different from the traditional electrochromism triggered by the electrochemical Faraday redox reaction, doped metal oxide NCs deliver a new electrochemical capacitance plasmonic EC mechanism. The nanostructure of the films and the utilized electrolyte systems are the main factors that significantly affect the EC properties of traditional EC materials, [78][79][80] whereas the crystal size, morphology, and specific surface area of metal oxide plasmonic NCs have a great influence on their EC properties. This new electrochemical capacitance plasmonic EC effect, which dynamically adjusts the absorption of LSPR by injecting and extracting electrons through electrochemical capacitor charging, can selectively adjust the transmittance of the NIR light from solar irradiation.…”

Section: The Emergence Of Metal Oxide Nc Based Peswsmentioning

confidence: 99%

“…In addition, response times and coloration efficiency are important parameters to evaluate the performance of PESWs. [79] Response times contain a coloration time (τ c ) and a bleaching time (τ b ), which usually refers to the time required for a 90% change of optical modulation in the bleached/colored state. [79] The coloration efficiency is defined as follows [77,83] Reproduced with permission.…”

Section: The Emergence Of Metal Oxide Nc Based Peswsmentioning

confidence: 99%

“…[79] Response times contain a coloration time (τ c ) and a bleaching time (τ b ), which usually refers to the time required for a 90% change of optical modulation in the bleached/colored state. [79] The coloration efficiency is defined as follows [77,83] Reproduced with permission. [77] Copyright 2013, The Royal Society of Chemistry.…”

Section: The Emergence Of Metal Oxide Nc Based Peswsmentioning

confidence: 99%

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Advances in Energy‐Efficient Plasmonic Electrochromic Smart Windows Based on Metal Oxide Nanocrystals

Wang

Meng

Wang

et al. 2021

Adv Energy and Sustain Res

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Energy consumption of buildings during heating and cooling accounts for about 15% of global total energy consumption. Advanced dynamic switchable windows that enable independent control of solar heat will contribute to optimal energy efficiency in heating, cooling, and artificial lighting systems throughout buildings. Recently, energy‐efficient plasmonic electrochromic smart windows (PESWs) based on metal oxide nanocrystals (NCs) have been gaining increasing attention due to their effective and controllable regulation over the near‐infrared region of the solar spectrum without affecting the dynamic visible transmittance of the smart windows. Herein, the current state‐of‐the‐art results of colloidal metal oxide NCs for PESWs are highlighted, along with their design strategies and working principles. The recent research status of PESWs in typical colloidal metal oxide NCs is reviewed in detail, and the challenges and corresponding countermeasures in this field are discussed. Furthermore, an outlook into novel opportunities in PESW‐related academic research and how to accelerate the pace of real‐world applications is presented.

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