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Organic-inorganic nanocomposite materials and methods of making the same and uses thereof

A technology of inorganic nano and composite materials, which is applied in the treatment of dyed organic silicon compounds, dyed high-molecular organic compounds, dyed low-molecular organic compounds, etc.

Inactive Publication Date: 2012-06-13
PPG IND OHIO INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As a result, shrinkage is present in all sol-gel technology improvements

Method used

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  • Organic-inorganic nanocomposite materials and methods of making the same and uses thereof
  • Organic-inorganic nanocomposite materials and methods of making the same and uses thereof
  • Organic-inorganic nanocomposite materials and methods of making the same and uses thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment I

[0217] Prepared in glass ampoules containing dissolved in 70.35 x 10 -2 g (10.87%mol) tetraethoxysilane (TEOS) and 145.00×10 -2 1.1×10 in a mixture of g (64.59% mol) acrylic acid (AA) -3 g (0.13%mol) benzoyl peroxide (BP) and 74.50×10 -2 g (24.41% mol) of maleic anhydride (MAN) and then seal the ampoule in air. The inner surface of the ampoule was prehydrophobized by treatment with a 10% solution of dichlorodimethylsilane (DCDMS) in dry decane. After stirring the reaction mixture in the vessel using a shaker at ambient temperature for 30 minutes, the solution was heated in an oven according to the following temperature-time schedule:

[0218] 40→50℃ - 36h

[0219] 60℃ - 15h

[0220] 80℃ - 15h

[0221] 100℃ - 10h

[0222] 120℃ - 12h

[0223] 150℃ - 1h

[0224] The weight yield of the white opaque solid organic-inorganic nanocomposite article was equal to 93.5%. The physical properties of the organic-inorganic nanocomposites measured according to the test methods defin...

Embodiment II

[0228] Prepared in glass ampoules containing dissolved in 93.79×10 -2 g (14.46%mol) tetraethoxysilane (TEOS), 204.00×10 -2 g (42.61%mol) methacrylic anhydride (MAAN) and 95.00×10 -2 25.1×10 in a mixture of g (42.61% mol) acrylic acid (AA) -3 g (0.32% mol) of benzoyl peroxide (BP) solution, the ampoule is sealed in air. The inner surface of the ampoule was prehydrophobized by treatment with a solution of dichlorodimethylsilane (DCDMS) in dry decane. After stirring the reaction mixture in the vessel using a shaker at ambient temperature for 30 minutes, the solution was heated in an oven according to the following temperature-time schedule:

[0229] 40→50℃ - 27h

[0230] 60℃ - 18h

[0231] 80℃ - 8h

[0232] 100℃ - 18h

[0233] 120℃ - 20h

[0234] 150℃ - 1h

[0235] The weight yield of the white opaque solid organic-inorganic nanocomposite article is equal to 99.7%. The physical properties of the organic-inorganic nanocomposites measured according to the test methods def...

Embodiment III

[0239] Prepared in glass ampoules containing dissolved in 93.40 x 10 -2 g (12.59%mol) tetraethoxysilane (TEOS), 207.32×10 -2 g (37.81%mol) methacrylic anhydride (MAAN), 98.30×10 -2 g (38.35%mol) acrylic acid (AA) and 78.15×10 -2 15.2×10 in a mixture of g (11.08% mol) ethylene glycol dimethacrylate (DMEG) -3 g (0.17% mol) of benzoyl peroxide (BP) solution, the ampoule is sealed in air. The inner surface of the ampoule was prehydrophobized by treatment with a solution of dichlorodimethylsilane (DCDMS) in dry decane. After stirring the reaction mixture in the vessel using a shaker at ambient temperature for 30 minutes, the solution was heated in an oven according to the following temperature-time schedule:

[0240] 40→50℃ - 75h

[0241] 60℃ - 29h

[0242] 80℃ - 15.5h

[0243] 100℃ - 24h

[0244] 120℃ - 24h

[0245] 150℃ - 2h

[0246] The weight yield of solid opaque white organic-inorganic nanocomposite article was equal to 99.2%. The physical properties of the organic...

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PUM

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Abstract

The present invention relates to materials comprising organic-inorganic polymeric networks. In some embodiments, the present invention provides an organic-inorganic composite material comprising an inorganic metal oxide matrix interpenetrating with a polymeric phase. Additionally, the present invention provides methods of producing organic-inorganic composite materials.

Description

[0001] Cross References to Related Applications [0002] This application hereby claims priority under 35 U.S.C. $119(e) to U.S. Provisional Patent Application No. 60 / 866,497, filed November 20, 2006, which is hereby incorporated by reference. field of invention [0003] The present invention relates to composite materials comprising organic and inorganic interpenetrating polymer networks. Background technique [0004] Organic-inorganic composites are becoming increasingly important because of their special properties arising from the synergy between organic and inorganic components and properties of interfacial regions. The great possibility of different combinations between organic and inorganic substances enables the fabrication of nanocomposites in different morphologies with unique properties not obtainable by conventional composites. [0005] A key challenge in the design of such organic-inorganic systems lies in controlling the mixing between the two different substa...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C08K9/04C08K9/08C09C3/08C09C3/10
CPCC01P2002/82C09C3/10C01P2006/40H05K1/0306C09C3/12H05K2203/121H05K1/0373C01P2002/88C01P2006/10H05K2201/0116C01P2004/04C08K9/08C08K9/04Y10T428/31678Y10T428/31692
Inventor 李洪R·A·蒙塔古C·A·理查德斯N·S·舍勒克霍夫N·A·卡扎切诺克
Owner PPG IND OHIO INC
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