Submicronic VO2–PVP composites coatings for smart windows applications and solar heat management

Submicronic VO2–PVP composites coatings for smart windows applications and solar heat management

•Large thermochromic coatings of IR active sub-mm VO2 particles in a passive polymer host of PVA.•IR transparent & reflective below and above 68°C of thermochromic hybrid 2-D composite coatings.•Reversible IR modulation with temperature of ∼45% between 25°C and 100°C at 1micron.•Cost effective s...

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Bibliographic Details
Published in:Solar energy Vol. 107; pp. 758 - 769
Main Authors: Madida, I.G., Simo, A., Sone, B., Maity, A., Kana Kana, J.B., Gibaud, A., Merad, G., Thema, F.T., Maaza, M.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-09-2014
Elsevier
Subjects:
Air conditioning. Ventilation
Applied sciences
Composite
Electrical engineering. Electrical power engineering
Energy
Energy. Thermal use of fuels
Equipments, installations and applications
Exact sciences and technology
Ground, air and sea transportation, marine construction
Heating, air conditioning and ventilation
IR modulation
Materials
Natural energy
Overheating
Road transportation and traffic
Smart windows
Solar energy
Solar thermal conversion
Techniques, equipment. Control. Metering
Thermochromism
Vanadium dioxide
IR modulation
Composite
Vanadium dioxide
Smart windows
Thermochromism
Overheating
Coating process
Costs
Profitability
Optical telecommunication
Hybrid material
Carbon dioxide
Glass
Composite material
Smart materials
Crystallites
Pyrrolidone(vinyl) polymer
Optical switching
Composite coating
Modulation
Optical characteristic
Vanadium oxide
Infrared radiation
Dip coating
Window glazing
Two dimensional model
Market penetration
Solar heating
Layer thickness
Hybrid composite
Coated material
Styrene(hydroxy) polymer
Manufacturing process
Spin-on coating
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Description
Summary:•Large thermochromic coatings of IR active sub-mm VO2 particles in a passive polymer host of PVA.•IR transparent & reflective below and above 68°C of thermochromic hybrid 2-D composite coatings.•Reversible IR modulation with temperature of ∼45% between 25°C and 100°C at 1micron.•Cost effective smart coatings for greater market penetration of thermochromic VO2 based technology. Large surface and chemically stable thermochromic composite coatings consisting of IR active sub-micron VO2 particles embedded in a passive polymeric host matrix of Polyvinylphenol were synthesized by dip and spin coating process. The hybrid composite coatings are IR transparent and IR reflective below and above the switching temperature of ∼68°C. Although these cost effective hybrid composite coatings are two-dimensional morphologically (1–3 nonpercolated submicron VO2 crystallites within the coating thickness), they exhibit a significant reversible IR transmission modulation with temperature of ∼45% between 25°C and 100°C at 1mm. This satisfactory reproducible thermochromic optical switching characteristic could address the impediment to greater market penetration of thermochromic VO2 based technology relatively to the high cost coatings engineered by vacuum technologies. From technological applications perspective, the global production of glass which could regulate solar heat by using such hybrid thermochromic coatings, could be part of 1 billion m2/year with ∼25% for building sector and about ∼11% for the automotive industry. Likewise, such cost effective hybrid thermochromic coatings could play a significant role in the minimization of air conditioning load and thus energy consumption in both building and automotive sectors. As hinted to in its 2012 annual report, the International Energy Council’s predictions have estimated that with ∼2billionsm2 of coated windows worldwide with smart coatings, energy saving in the building and automotive economic fields is equivalent of CO2 reduction by about ∼100 millions of tons.
ISSN:0038-092X
1471-1257
DOI:10.1016/j.solener.2014.06.025