Thermochromic Coatings for Intelligent Architectural Glazing

Parkin, Ivan P.; Binions, Russell; Piccirillo, Clara; Blackman, Christopher S.; Manning, Troy D.

doi:10.4028/www.scientific.net/jnanor.2.1

Cited by 50 publications

(36 citation statements)

References 58 publications

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“…Below this temperature, at τ < τ c , VO 2 is semiconducting and infrared transmitting, whereas it is metallic and infrared reflecting at τ > τ c . As τ c is rather close to room temperature, VO 2 -based materials are of interest for applications on energy efficient windows, [12][13][14][15][16][17][18][19] specifically for passively modulating the solar energy throughput depending on temperature. The potential energy saving can be high, especially in warm climates.…”

Section: Introductionmentioning

confidence: 99%

Thermochromic undoped and Mg-doped VO₂ thin films and nanoparticles: Optical properties and performance limits for energy efficient windows

Niklasson

Granqvist

2014

Journal of Applied Physics

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Undoped and Mg-doped thermochromic VO 2 films with atom ratios z ≡ Mg/(Mg + V) of 0 ≤ z < 0.21 were deposited by reactive DC magnetron sputtering onto heated glass and carbon substrates. Elemental compositions were found by Rutherford backscattering spectrometry. Optical constants were determined from transmittance and reflectance measurements and were used for modeling the optical properties of thin films and dilute nanoparticle composite layers below and above the critical temperature for thermochromic switching between a low-temperature infrared transparent state and a high-temperature infrared reflecting or absorbing state. Mgdoped films showed superior luminous transmittance T lum and solar transmittance modulation ΔT sol compared to undoped VO 2 films, and both of these parameters could be further enhanced by anti-reflection. VO 2 -containing nanocomposites had much larger values of T lum and ΔT sol than VO 2 -based films. Mg-doping was found to erode the properties of the nanocomposites. Approximate performance limits are given on T lum and ΔT sol for thermochromic VO 2 films, with and without Mg doping and antireflection coating, and also for VO 2 -containing dilute nanocomposites.--

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Section: Introductionmentioning

confidence: 99%

Thermochromic undoped and Mg-doped VO₂ thin films and nanoparticles: Optical properties and performance limits for energy efficient windows

Niklasson

Granqvist

2014

Journal of Applied Physics

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“…It is not well understood how to obtain low hysteresis widths, although uniform particle size has been suggested as one possible route [12]. In any case, the vast majority of samples in the literature have widths of 5˚C -10 ˚C [16,17,[26][27][28][29][30]. Which gives a comparable or moderately enhanced performance when compared to the absorbing glass, and a significantly improved performance over the sputtered silver glass.…”

Section: Discussionmentioning

confidence: 99%

“…The transition tempera-ture has also been shown to be affected by film strain [11] and it has been demonstrated that strain can be introduced by careful choice of deposition conditions [12]. Tungsten doped vanadium dioxide films have been prepared by a variety of methods including physical vapour deposition [13], sol-gel [14], and chemical vapour deposition (CVD) methodologies [15][16][17]. CVD routes to the production of VO 2 films are generally considered more attractive because of the ability to integrate CVD processes with high volume float glass manufacture and the physical properties of CVD produced films, which are generally adherent and durable [18].…”

Section: Introductionmentioning

confidence: 99%

The Effect of Transition Hysteresis Width in Thermochromic Glazing Systems

Warwick¹,

Ridley²,

Binions³

2013

OJEE

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Thermochromic glazing theoretically has the potential to lead to a large reduction in energy demand in modern buildings by allowing the transmission of visible light for day lighting whilst reducing unwanted solar gain during the cooling season, but allowing useful solar gain in the heating season. In this study building simulation is used to examine the effect of the thermochromic transition hysteresis width on the energy demand characteristics of a model system in a variety of climates. The results are also compared against current industry standard glazing products. The results suggest that in a warm climate with a low transition temperature and hysteresis width energy demand can be reduced by up to 54% compared to standard double glazing.

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“…The transition temperature has also been shown to be affected by film strain [64] and it has been demonstrated that strain can be introduced by careful choice of deposition conditions [65]. Tungsten doped vanadium dioxide films have been prepared by a variety of methods including sol-gel [66], sputtering [67], and chemical vapour deposition (CVD) methodologies [68][69][70]. CVD routes to the production of doped V0 2 films are generally considered more attractive because of the compatibility of CVD processes with high volume glass manufacture and the physical properties of CVD produced films which are usually adherent and long lasting.…”

Section: Challenges For V0 2 Use In Architectural Glazingmentioning

confidence: 99%

Thermochromic Thin Films and Nanocomposites for Smart Glazing

Binions

2012

Intelligent Nanomaterials

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Solid-state thermochromic materials undergo semiconductor to metal transitions at a critical temperature, Γ. This chapter begins by describing the phenomenon of thermochromism, whereby the optical properties of a material change reversibly as a result of a change in temperature. The different types of thermochromism will be introduced with a focus on the thermochromism exhibited by solid-state materials. Also presented are the fundamental chemical principles that describe the electronic structure and properties of solids, and the chronological developments in the theory behind the thermochromic transitions that lead to the discovery of the semiconductor-to-metal transition. The focus is on vanadium dioxide, V0 2 , because its critical temperature is closest to room temperature, so it is a valuable material for potential application in thermochromic glazing. The possibility of fine-tuning this transition temperature involves introducing various dopants into the V0 2 lattice, which can increase or decrease Γ.Additionally, the chapter will examine the effects of dopants and the requirements of dopants to achieve the desired effect on T will be discussed. Solid-state thermochromic materials may be exploited in devices such as microelectronics, data storage, or intelligent architectural glazing, thus are required to be synthesis as thin films for use in such applications. The numerous synthetic techniques for making metal oxide thermochromic thin films will be investigated through a comparison of each synthetic method.In exploring recent research on the production of thin film, the chapter explains that micro-structural changes bought about by careful control of film growth conditions, and/or the use of surfactant, lead to an

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Thermochromic Coatings for Intelligent Architectural Glazing

Cited by 50 publications

References 58 publications

Thermochromic undoped and Mg-doped VO₂ thin films and nanoparticles: Optical properties and performance limits for energy efficient windows

Thermochromic undoped and Mg-doped VO₂ thin films and nanoparticles: Optical properties and performance limits for energy efficient windows

The Effect of Transition Hysteresis Width in Thermochromic Glazing Systems

Thermochromic Thin Films and Nanocomposites for Smart Glazing

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Thermochromic Coatings for Intelligent Architectural Glazing

Cited by 50 publications

References 58 publications

Thermochromic undoped and Mg-doped VO2 thin films and nanoparticles: Optical properties and performance limits for energy efficient windows

Thermochromic undoped and Mg-doped VO2 thin films and nanoparticles: Optical properties and performance limits for energy efficient windows

The Effect of Transition Hysteresis Width in Thermochromic Glazing Systems

Thermochromic Thin Films and Nanocomposites for Smart Glazing

Contact Info

Product

Resources

About

Thermochromic undoped and Mg-doped VO₂ thin films and nanoparticles: Optical properties and performance limits for energy efficient windows

Thermochromic undoped and Mg-doped VO₂ thin films and nanoparticles: Optical properties and performance limits for energy efficient windows