In situ preparation of nano ZnO/hyperbranched polyimide hybrid film and their optical properties

In situ preparation of nano ZnO/hyperbranched polyimide hybrid film and their optical properties

Novel hybrid films of fluorinated hyperbranched polyimide (HBPI) and zinc oxide (ZnO) were prepared via the in situ sol–gel polymerization technique, in which mono-ethanolamine (MEA) was used as the coupling agent between the termini of HBPI and the precursor of ZnO. The hybrid films were characteri...

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Veröffentlicht in:Polymer (Guilford) 2010-06, Vol.51 (14), p.3173-3180
Hauptverfasser: Gao, Hong, Yorifuji, Daisuke, Wakita, Junji, Jiang, Zhen-Hua, Ando, Shinji
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Composites
Energy transfer
Exact sciences and technology
Excitation
Fluorescence
Fluorination
Forms of application and semi-finished materials
Hyperbranched polyimide
Nanoparticles
Nanostructure
Polyimide resins
Polymer industry, paints, wood
Polymerization
Sol gel process
Technology of polymers
Zinc oxide
ZnO nanoparticles
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container_end_page 3180
container_issue 14
container_start_page 3173
container_title Polymer (Guilford)
container_volume 51
creator Gao, Hong
Yorifuji, Daisuke
Wakita, Junji
Jiang, Zhen-Hua
Ando, Shinji
description Novel hybrid films of fluorinated hyperbranched polyimide (HBPI) and zinc oxide (ZnO) were prepared via the in situ sol–gel polymerization technique, in which mono-ethanolamine (MEA) was used as the coupling agent between the termini of HBPI and the precursor of ZnO. The hybrid films were characterized by transmission electron microscopy (TEM), Fourier transform infrared (FT-IR) absorption, ultraviolet–visible (UV–vis) absorption, and fluorescent excitation/emission spectroscopy. The films, which originated from the colourless fluorinated HBPI structure and homogeneously dispersed ZnO nanoparticles, exhibited good optical transparency. Furthermore, two kinds of model compounds with and without ZnO and a HBPI film blended with ZnO microparticles were prepared to clarify the fluorescence mechanism in the pristine HBPI and in situ hybrid films. Efficient energy transfer from the ZnO nanoparticles to the aromatic HBPI main chains was observed in the in situ hybrid films, whereas energy transfer occurred only from the locally excited (LE) states to the charge-transfer (CT) state in the HBPI film. These facts demonstrate that the peripheral termini of HBPI are covalently bonded to ZnO particles via the MEA function, which operates as an effective pathway for energy transfer to give intense fluorescent emission. [Display omitted]
doi_str_mv 10.1016/j.polymer.2010.05.019
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The hybrid films were characterized by transmission electron microscopy (TEM), Fourier transform infrared (FT-IR) absorption, ultraviolet–visible (UV–vis) absorption, and fluorescent excitation/emission spectroscopy. The films, which originated from the colourless fluorinated HBPI structure and homogeneously dispersed ZnO nanoparticles, exhibited good optical transparency. Furthermore, two kinds of model compounds with and without ZnO and a HBPI film blended with ZnO microparticles were prepared to clarify the fluorescence mechanism in the pristine HBPI and in situ hybrid films. Efficient energy transfer from the ZnO nanoparticles to the aromatic HBPI main chains was observed in the in situ hybrid films, whereas energy transfer occurred only from the locally excited (LE) states to the charge-transfer (CT) state in the HBPI film. These facts demonstrate that the peripheral termini of HBPI are covalently bonded to ZnO particles via the MEA function, which operates as an effective pathway for energy transfer to give intense fluorescent emission. 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These facts demonstrate that the peripheral termini of HBPI are covalently bonded to ZnO particles via the MEA function, which operates as an effective pathway for energy transfer to give intense fluorescent emission. 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The hybrid films were characterized by transmission electron microscopy (TEM), Fourier transform infrared (FT-IR) absorption, ultraviolet–visible (UV–vis) absorption, and fluorescent excitation/emission spectroscopy. The films, which originated from the colourless fluorinated HBPI structure and homogeneously dispersed ZnO nanoparticles, exhibited good optical transparency. Furthermore, two kinds of model compounds with and without ZnO and a HBPI film blended with ZnO microparticles were prepared to clarify the fluorescence mechanism in the pristine HBPI and in situ hybrid films. Efficient energy transfer from the ZnO nanoparticles to the aromatic HBPI main chains was observed in the in situ hybrid films, whereas energy transfer occurred only from the locally excited (LE) states to the charge-transfer (CT) state in the HBPI film. 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source Elsevier ScienceDirect Journals Complete
subjects Applied sciences
Composites
Energy transfer
Exact sciences and technology
Excitation
Fluorescence
Fluorination
Forms of application and semi-finished materials
Hyperbranched polyimide
Nanoparticles
Nanostructure
Polyimide resins
Polymer industry, paints, wood
Polymerization
Sol gel process
Technology of polymers
Zinc oxide
ZnO nanoparticles
title In situ preparation of nano ZnO/hyperbranched polyimide hybrid film and their optical properties
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