Thermochromic Oxide-Based Thin Films and Nanoparticle Composites for Energy-Efficient Glazings

Granqvist, Claes‐Göran; Niklasson, Gunnar A.

doi:10.3390/buildings7010003

Cited by 34 publications

(29 citation statements)

References 110 publications

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“…With the ever increasing need for materials with new functionalities for integrated circuits and smart surface technologies, VO 2 has entered the agenda of groups focusing on applications and device design. Some interesting examples include thermochromic smart window coatings [6][7][8][9][10], tunable antennas [11][12][13], tunable metamaterials [14], and electronic switch components [15] in integrated circuits. VO 2 can be synthesized both in bulk powder form as well as in thin film form.…”

Section: Introductionmentioning

confidence: 99%

Selective IR response of highly textured phase change VO₂ nanostructures obtained via oxidation of electron beam deposited metallic V films

Uslu¹,

Misirlioglu²,

Şendur³

2018

Opt. Mater. Express

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We demonstrate the growth of highly textured VO 2 nanocrystals via annealing of e-beam deposited amorphous metallic V. Temperature dependent ellipsometry results reveal the pronounced reflection near the IR spectrum above the transition and an almost temperature independent weak reflection in the visible spectrum. The IR reflection displays a strong hysteresis during heating and cooling near the transition temperature at 68°C, indicating a first order transition and a strain-free structure. Our work demonstrates the feasibility to obtain high quality phase change nanostructures that transmit the visible spectrum but reflect IR and is suitable for large scale fabrication.

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Section: Introductionmentioning

confidence: 99%

Selective IR response of highly textured phase change VO₂ nanostructures obtained via oxidation of electron beam deposited metallic V films

Uslu¹,

Misirlioglu²,

Şendur³

2018

Opt. Mater. Express

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“…Thermochromic materials are usually employed as glazing materials in architecture, allowing them to regulate the amount of light transmitted or reflected, depending on atmospheric temperature . They not only act as specific wavelength transmitters but are also effective in optimizing heat exchanges.…”

Section: Advances In Biophotonics and Possible Pbr Novel Illuminationmentioning

confidence: 99%

“…They not only act as specific wavelength transmitters but are also effective in optimizing heat exchanges. Thermochromic materials transmit more solar energy at low temperatures than at high temperatures . For temperatures below the transition, thermochromic materials transmit more heat associated with IR and near‐IR radiations.…”

Section: Advances In Biophotonics and Possible Pbr Novel Illuminationmentioning

confidence: 99%

Biophotonics for improving algal photobioreactor performance: A review

et al. 2020

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The use of algae as a feedstock for biofuels production has drawn considerable attention due to their high biomass yield, their ability to be cultivated using degraded water on nonarable land, and their ability to recover nutrients from wastewater. Although algae have the potential to provide biomass for biofuels, some challenges remain and the limitations may be overcome by improving algal growth rates together with lipid synthesis. To achieve this, scientific researchers have focused on isolating and screening algal strains with better growth rates and lipid synthesis capabilities, bioengineering, and optimizing culture systems. The present review focuses on the biophotonic-based manipulations that can be applied to optimize solar-powered photobioreactors (PBRs).Hence, three different types of solar filters are reviewed herein, that is, the colored glass, thin-film, and thermochromic filters. This review provides evidence that bright red-colored glass filters can lower the spectral intensity of solar radiation from 1982.13 to 393.71 μmol m −2 s −1 , which is preferable for improved biomass productivity. Changing filter color, once the desired biomass concentration has been amassed, to medium blue or bright pink further improves lipid yield. A 34% improvement in biomass productivity was observed for Chlorella vulgaris cultured under thin-film filters. Thin-film filters are also effective in regulating PBR temperature within the 24-31 C range, which is tolerable for most algal species. Furthermore, this study highlights that the applicability of thermochromic filters in PBR designs is still yet to be investigated. Thermochromic filters are reflective and absorptive under high and low temperatures, respectively, a technology that can be a solution to the overheating challenge of PBRs. This review recommends the coupling of these light

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“…An interesting possibility, which remains to be tested for glazing applications, is to use nanoparticles with properties that are thermochromic, i.e., different above and below a certain temperature in the neighborhood of room temperature. The most well-known thermochromic material is vanadium dioxide (VO 2 ) [34], which is semiconducting at low temperature and metallic-like at high temperature; the transition between the two regimes takes place around 68 ºC in bulk VO 2 but is typically somewhat lower in a thin coating or in nanoparticles. If needed, the transition temperature can be deceased by adding a minor amount of tungsten to the VO 2 [35].…”

Section: Some Futures Aspects: Electrolyte Functionalizationmentioning

confidence: 99%

Electrochromics on a roll: Web-coating and lamination for smart windows

Granqvist

Pehlivan

Niklasson

2018

Surface and Coatings Technology

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Thermochromic Oxide-Based Thin Films and Nanoparticle Composites for Energy-Efficient Glazings

Cited by 34 publications

References 110 publications

Selective IR response of highly textured phase change VO₂ nanostructures obtained via oxidation of electron beam deposited metallic V films

Selective IR response of highly textured phase change VO₂ nanostructures obtained via oxidation of electron beam deposited metallic V films

Biophotonics for improving algal photobioreactor performance: A review

Electrochromics on a roll: Web-coating and lamination for smart windows

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Thermochromic Oxide-Based Thin Films and Nanoparticle Composites for Energy-Efficient Glazings

Cited by 34 publications

References 110 publications

Selective IR response of highly textured phase change VO2 nanostructures obtained via oxidation of electron beam deposited metallic V films

Selective IR response of highly textured phase change VO2 nanostructures obtained via oxidation of electron beam deposited metallic V films

Biophotonics for improving algal photobioreactor performance: A review

Electrochromics on a roll: Web-coating and lamination for smart windows

Contact Info

Product

Resources

About

Selective IR response of highly textured phase change VO₂ nanostructures obtained via oxidation of electron beam deposited metallic V films

Selective IR response of highly textured phase change VO₂ nanostructures obtained via oxidation of electron beam deposited metallic V films