Vinyl ether-modified poly(hydrogen silsesquioxanes) as dielectric materials

Vinyl ether-modified poly(hydrogen silsesquioxanes) or PHSQ were prepared via a platinum-catalyzed hydrosilylation reaction of PHSQ with an alkyl vinyl ether (VE) in toluene. The product formed in a near quantitative yield and its composition was characterized by multinuclear magnetic resonance spec...

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Veröffentlicht in:	Journal of materials chemistry 2005-01, Vol.15 (38), p.4115-4124
Hauptverfasser:	KAI SU, BUJALSKI, Duane R, EGUCHI, Katsuya, GORDON, Glenn V, SANLIN HU, OU, Duan-Li
Format:	Artikel
Sprache:	eng
Schlagworte:	Condensed matter: electronic structure, electrical, magnetic, and optical properties Cross-disciplinary physics: materials science rheology Dielectric properties of solids and liquids Dielectric, piezoelectric, ferroelectric and antiferroelectric materials Dielectrics, piezoelectrics, and ferroelectrics and their properties Exact sciences and technology Magnetic resonances and relaxations in condensed matter, mössbauer effect Materials science Permittivity (dielectric function) Physics
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container_issue	38
container_start_page	4115
container_title	Journal of materials chemistry
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creator	KAI SU BUJALSKI, Duane R EGUCHI, Katsuya GORDON, Glenn V SANLIN HU OU, Duan-Li
description	Vinyl ether-modified poly(hydrogen silsesquioxanes) or PHSQ were prepared via a platinum-catalyzed hydrosilylation reaction of PHSQ with an alkyl vinyl ether (VE) in toluene. The product formed in a near quantitative yield and its composition was characterized by multinuclear magnetic resonance spectroscopy. Multi-detector size exclusion chromatography revealed that relative to the PHSQ starting material, the PHSQ-VEs increased in molecular weight and radius of gyration, and the relationship between intrinsic viscosity and molecular weight suggested a branched structure. Thermal analyses indicated a cure onset around 100 DGC; an onset of thermal decomposition at ca. 230 DGC; and mass loss completed by 550 DGC. Evolved gas analysis from thermogravimetric experiments revealed the initial elimination of the ethylene linkage, followed by cleavage of the carbon-carbon bonds. The materials prepared by pyrolysis at 425 DGC were porous. Nitrogen porosimetry measured an increase in microporosity-from 0.187 to 0.295 cm3 g-1 ( < 5 nm) when the VE content was increased from 10 to 50 wt%. The PHSQ-VEs were spin-coated onto silicon wafers and cured either at 400, 425, or 450 DGC. The dielectric constant of the spin-coated films ranged from 2.3 to 3.0, and the modulus was between 2.2 and 12.9 GPa depending on material composition.
doi_str_mv	10.1039/b414064h
format	Article
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The PHSQ-VEs were spin-coated onto silicon wafers and cured either at 400, 425, or 450 DGC. 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The PHSQ-VEs were spin-coated onto silicon wafers and cured either at 400, 425, or 450 DGC. 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The product formed in a near quantitative yield and its composition was characterized by multinuclear magnetic resonance spectroscopy. Multi-detector size exclusion chromatography revealed that relative to the PHSQ starting material, the PHSQ-VEs increased in molecular weight and radius of gyration, and the relationship between intrinsic viscosity and molecular weight suggested a branched structure. Thermal analyses indicated a cure onset around 100 DGC; an onset of thermal decomposition at ca. 230 DGC; and mass loss completed by 550 DGC. Evolved gas analysis from thermogravimetric experiments revealed the initial elimination of the ethylene linkage, followed by cleavage of the carbon-carbon bonds. The materials prepared by pyrolysis at 425 DGC were porous. Nitrogen porosimetry measured an increase in microporosity-from 0.187 to 0.295 cm3 g-1 ( < 5 nm) when the VE content was increased from 10 to 50 wt%. 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source	Royal Society of Chemistry Journals Archive (1841-2007); Royal Society Of Chemistry Journals 2008-
subjects	Condensed matter: electronic structure, electrical, magnetic, and optical properties Cross-disciplinary physics: materials science rheology Dielectric properties of solids and liquids Dielectric, piezoelectric, ferroelectric and antiferroelectric materials Dielectrics, piezoelectrics, and ferroelectrics and their properties Exact sciences and technology Magnetic resonances and relaxations in condensed matter, mössbauer effect Materials science Permittivity (dielectric function) Physics
title	Vinyl ether-modified poly(hydrogen silsesquioxanes) as dielectric materials
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