Variable solar control using thermotropic core/shell particles

Subject of our recent investigations is the utilization of a reversible thermotropic material for a self-regulating sun protection glazing that controls the solar energy input in order to avoid overheating. Based on the well-established UV curing technology for laminated glass a superior thermotropi...

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Published inSolar energy materials and solar cells Vol. 93; no. 9; pp. 1510 - 1517
Main Authors Muehling, Olaf, Seeboth, Arno, Haeusler, Tobias, Ruhmann, Ralf, Potechius, Elvira, Vetter, Renate
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.09.2009
Elsevier
Subjects
Applied sciences
Core/shell particles
Efficiency
Energy
Exact sciences and technology
Miniemulsion polymerization
Miscellaneous
Natural energy
Overheating protection
Particle size
Particulates
Polymers
Q1
Smart windows
solar cells
Solar energy
Spectroscopy
sun
Sun protection glazing
Thermotropic materials
transmittance
Miniemulsion polymerization
Sun protection glazing
Core/shell particles
Thermotropic materials
Overheating protection
Smart windows
Costs
Particle size
Sun protection
Glass
Polymerization
Solar glazing
Thermotropic crystals
Transmittance
Optical properties
Curing
Resins
Ultraviolet visible spectrometry
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Abstract Subject of our recent investigations is the utilization of a reversible thermotropic material for a self-regulating sun protection glazing that controls the solar energy input in order to avoid overheating. Based on the well-established UV curing technology for laminated glass a superior thermotropic material with tunable switching characteristics and of low material costs was developed. The polymer layer contains core/shell particles homogeneously dispersed in a UV-cured resin. The particle core in turn consists of an n-alkane mixture that is responsible for the temperature-induced clear/opaque switching. To obtain particles of well-defined size and with a narrow size distribution, the miniemulsion polymerization technique was used. The visible and solar optical properties (normal–normal, normal–hemispherical, and normal–diffuse transmittance) in the off (clear) and in the on state (opaque) were determined by UV/Vis/NIR spectroscopy. Samples containing particles of high median diameter (>800 nm) primarily scatter in the forward direction. However, with smaller particles (300–600 nm) a higher backscattering (reflection) efficiency was achieved. The largest difference in the normal–hemispherical transmittance could be found with a particle amount of 6% and a median scattering domain diameter of ∼380 nm.
AbstractList Subject of our recent investigations is the utilization of a reversible thermotropic material for a self-regulating sun protection glazing that controls the solar energy input in order to avoid overheating. Based on the well-established UV curing technology for laminated glass a superior thermotropic material with tunable switching characteristics and of low material costs was developed. The polymer layer contains core/shell particles homogeneously dispersed in a UV-cured resin. The particle core in turn consists of an n-alkane mixture that is responsible for the temperature-induced clear/opaque switching. To obtain particles of well-defined size and with a narrow size distribution, the miniemulsion polymerization technique was used. The visible and solar optical properties (normal–normal, normal–hemispherical, and normal–diffuse transmittance) in the off (clear) and in the on state (opaque) were determined by UV/Vis/NIR spectroscopy. Samples containing particles of high median diameter (>800 nm) primarily scatter in the forward direction. However, with smaller particles (300–600 nm) a higher backscattering (reflection) efficiency was achieved. The largest difference in the normal–hemispherical transmittance could be found with a particle amount of 6% and a median scattering domain diameter of ∼380 nm.
Subject of our recent investigations is the utilization of a reversible thermotropic material for a self-regulating sun protection glazing that controls the solar energy input in order to avoid overheating. Based on the well-established UV curing technology for laminated glass a superior thermotropic material with tunable switching characteristics and of low material costs was developed. The polymer layer contains core/shell particles homogeneously dispersed in a UV-cured resin. The particle core in turn consists of an n-alkane mixture that is responsible for the temperature-induced clear/opaque switching. To obtain particles of well-defined size and with a narrow size distribution, the miniemulsion polymerization technique was used. The visible and solar optical properties (normal-normal, normal-hemispherical, and normal-diffuse transmittance) in the off (clear) and in the on state (opaque) were determined by UV/Vis/NIR spectroscopy. Samples containing particles of high median diameter ( > 800 nm) primarily scatter in the forward direction. However, with smaller particles (300-600 nm) a higher backscattering (reflection) efficiency was achieved. The largest difference in the normal-hemispherical transmittance could be found with a particle amount of 6% and a median scattering domain diameter of [not, vert, similar]380 nm.
Author Potechius, Elvira
Muehling, Olaf
Haeusler, Tobias
Ruhmann, Ralf
Vetter, Renate
Seeboth, Arno
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  givenname: Renate
  surname: Vetter
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Issue 9
Keywords Miniemulsion polymerization
Sun protection glazing
Core/shell particles
Thermotropic materials
Overheating protection
Smart windows
Costs
Particle size
Sun protection
Glass
Polymerization
Solar glazing
Thermotropic crystals
Transmittance
Optical properties
Curing
Resins
Ultraviolet visible spectrometry
Language English
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Snippet Subject of our recent investigations is the utilization of a reversible thermotropic material for a self-regulating sun protection glazing that controls the...
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SubjectTerms Applied sciences
Core/shell particles
Efficiency
Energy
Exact sciences and technology
Miniemulsion polymerization
Miscellaneous
Natural energy
Overheating protection
Particle size
Particulates
Polymers
Q1
Smart windows
solar cells
Solar energy
Spectroscopy
sun
Sun protection glazing
Thermotropic materials
transmittance
Title Variable solar control using thermotropic core/shell particles
URI https://dx.doi.org/10.1016/j.solmat.2009.03.029
https://search.proquest.com/docview/20693293
https://search.proquest.com/docview/34716314
Volume 93
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