Wavelength conversion using rare earth doped oxides in polyolefin based nanocomposite films

Nanocomposites are a new class of polymeric materials which include organic or inorganic nano‐phase materials. These nanocomposite films can show interesting properties which have many applications for wavelength conversion and energy saving. In this paper, we present polyolefin based nanocomposite...

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Veröffentlicht in:	Polymer international 2012-06, Vol.61 (6), p.943-950
Hauptverfasser:	Jadhav, Abhijit, Pawar, Amol, Hwang, Tae Ryong, Lee, Jae Wook, Choi, Min Wook, Kyu Kim, Byung, Kang, Young Soo
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Sprache:	eng
Schlagworte:	Applied sciences Conversion Exact sciences and technology inorganic phosphors mechanical properties nanocomposite films Nanocomposites Nanomaterials Nanostructure Phosphors Physicochemistry of polymers Polymer industry, paints, wood polyolefin films Rare earth compounds Rare earth metals Technology of polymers wavelength conversion Wavelengths
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container_issue	6
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container_title	Polymer international
container_volume	61
creator	Jadhav, Abhijit Pawar, Amol Hwang, Tae Ryong Lee, Jae Wook Choi, Min Wook Kyu Kim, Byung Kang, Young Soo
description	Nanocomposites are a new class of polymeric materials which include organic or inorganic nano‐phase materials. These nanocomposite films can show interesting properties which have many applications for wavelength conversion and energy saving. In this paper, we present polyolefin based nanocomposite films prepared using wavelength‐converting red ‘phosphors’ such as Y2O3: Eu3+ and LiAl5O8:Fe3+ and blue ‘phosphor’ CaMgSi2O6: Eu2+. The durability of the polymer chain is unaffected by incorporation of inorganic nanoparticles as there is no direct interaction between them. The addition of surfactant in the nanocomposite film helps to improve the dispersion ability of the nanoparticles and increase the flexibility of the polymer film. Wavelength‐converting ‘nanophosphors’ incorporated in a polymer matrix help to increase the tensile strength of the film. The films show excellent wavelength conversion ability of UV light into the visible and near IR range. These nanocomposite films have great application in energy saving devices. Copyright © 2012 Society of Chemical Industry The ‘phosphor’ nanoparticles embedded in the nanocomposite film helps to convert high energy UV and far UV light into visible and near IR range.
doi_str_mv	10.1002/pi.4163
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Int</addtitle><description>Nanocomposites are a new class of polymeric materials which include organic or inorganic nano‐phase materials. These nanocomposite films can show interesting properties which have many applications for wavelength conversion and energy saving. In this paper, we present polyolefin based nanocomposite films prepared using wavelength‐converting red ‘phosphors’ such as Y2O3: Eu3+ and LiAl5O8:Fe3+ and blue ‘phosphor’ CaMgSi2O6: Eu2+. The durability of the polymer chain is unaffected by incorporation of inorganic nanoparticles as there is no direct interaction between them. The addition of surfactant in the nanocomposite film helps to improve the dispersion ability of the nanoparticles and increase the flexibility of the polymer film. Wavelength‐converting ‘nanophosphors’ incorporated in a polymer matrix help to increase the tensile strength of the film. The films show excellent wavelength conversion ability of UV light into the visible and near IR range. These nanocomposite films have great application in energy saving devices. 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source	Wiley Online Library Journals Frontfile Complete
subjects	Applied sciences Conversion Exact sciences and technology inorganic phosphors mechanical properties nanocomposite films Nanocomposites Nanomaterials Nanostructure Phosphors Physicochemistry of polymers Polymer industry, paints, wood polyolefin films Rare earth compounds Rare earth metals Technology of polymers wavelength conversion Wavelengths
title	Wavelength conversion using rare earth doped oxides in polyolefin based nanocomposite films
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