Optically clear nanocomposites and products using nanoscale fillers
First Claim
Patent Images
1. A method for preparing a nanocomposite comprising:
- providing nanofillers comprising particles with a domain size less than 100 nanometers and an aspect ratio ranging from 1 to 3;
providing a liquid polymer matrix;
wherein the nanofillers comprise a surface consisting of a thin layer of a phase that is compatible with the matrix composition or a surface wherein a precursor has been reacted with the surface of the nanofillers;
mixing the nanofillers and the liquid polymer matrix below a loading of 80% by volume and processing the mixture to make a nanocomposite; and
wherein the nanocomposite has a transparency to light that differs by more than 20% as compared with the transparency to light exhibited by a composite material of similar composition with filler particles having a domain size of at least one micron.
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Abstract
Methods for preparing nanocomposites that enable films with optical clarity, wear resistance and superior functional performance. Nanofillers and a substance having a polymer are mixed. Both low-loaded and highly-loaded nanocomposites are included. Nanocomposite films may be coated on substrates.
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Citations
34 Claims
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1. A method for preparing a nanocomposite comprising:
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providing nanofillers comprising particles with a domain size less than 100 nanometers and an aspect ratio ranging from 1 to 3; providing a liquid polymer matrix; wherein the nanofillers comprise a surface consisting of a thin layer of a phase that is compatible with the matrix composition or a surface wherein a precursor has been reacted with the surface of the nanofillers; mixing the nanofillers and the liquid polymer matrix below a loading of 80% by volume and processing the mixture to make a nanocomposite; and wherein the nanocomposite has a transparency to light that differs by more than 20% as compared with the transparency to light exhibited by a composite material of similar composition with filler particles having a domain size of at least one micron. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for preparing a nanocomposite comprising:
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providing nanofillers comprising particles with a domain size less than 100 nanometers and an aspect ratio ranging from 1 to 3; providing a polymer matrix; wherein the nanofillers comprise a surface consisting of a thin layer of a phase that is compatible with the matrix composition or a surface wherein a precursor has been reacted with the surface of the nanofillers; dispersing the coated nanofillers in the polymer matrix below a loading of 80% by volume thereby producing nanocomposite with a desired property that differs by more than 20% as compared with the desired property exhibited by a composite material of similar composition with filler particles having a domain size of at least one micron; and wherein the desired material property is selected from the group consisting of refractive index, transparency to light, reflection characteristics, resistivity, permittivity, permeability, coercivity, B-H product, magnetic hysteresis, breakdown voltage, skin depth, curie temperature, dissipation factor, work function, band gap, electromagnetic shielding effectiveness, radiation hardness, chemical reactivity, thermal conductivity, temperature coefficient of an electrical property, voltage coefficient of an electrical property, thermal shock resistance, biocompatibility, and wear rate. - View Dependent Claims (12)
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13. A method for preparing a polymer nanocomposite comprising:
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providing nanofillers comprising particles with a domain size less than 100 nanometers and an aspect ratio ranging from 1 to 3; providing a fluid comprising a monomer; wherein the nanofillers comprise a surface consisting of a thin layer of a phase that is compatible with the matrix composition or a surface wherein a precursor has been reacted with the surface of the nanofiller; mixing the nanofillers with the fluid comprising a monomer, wherein the nanofillers are mixed in at a loading below a loading of 80% by volume, wherein the loading is heterogeneous thereby producing a nanocomposite with gradient property; and polymerizing the mixture comprising nanofillers and the fluid thereby producing a polymer nanocomposite. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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20. A method for preparing an optically clear polymer nanocomposite comprising:
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providing nanofillers comprising two or more elements selected from the group consisting of;
aluminum, barium, bismuth, cadmium, calcium, cerium, cesium, cobalt, copper, europium, gallium, gold, indium, iron, lanthanum, lithium, magnesium, manganese, molybdenum, neodymium, nickel, niobium, palladium, platinum, potassium, praseodymium, scandium, silicon, silver, sodium, strontium, tantalum, tin, titanium, tungsten, vanadium, ytterbium, yttrium, zinc, and zirconium;wherein the nanofillers comprise particles with a domain size less than 100 nanometers and an aspect ratio less than or equal to 3; wherein the nanofillers comprise a surface consisting of a thin layer of a phase that is compatible with the matrix composition or a surface wherein a precursor has been reacted with the surface of the nanofiller; providing a substance comprising a polymer; dispersing the nanofillers in the substance below a loading of 80% by volume thereby producing nanocomposite with a desired property that differs by more than 20% as compared with the desired property exhibited by a composite material of similar composition with filler particles having a domain size of at least one micron; and wherein the desired material property is selected from the group consisting of refractive index, transparency to light, reflection characteristics, resistivity, permittivity, permeability, coercivity, B-H product, magnetic hysteresis, breakdown voltage, skin depth, curie temperature, dissipation factor, work function, band gap, electromagnetic shielding effectiveness, radiation hardness, chemical reactivity, thermal conductivity, temperature coefficient of an electrical property, voltage coefficient of an electrical property, thermal shock resistance, biocompatibility, and wear rate.
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21. A method for preparing a nanocomposite comprising:
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providing nanofillers, wherein the nanofillers comprise particles with a domain size less than 100 nanometers and an aspect ratio ranging from 1 to 3, wherein the nanofillers comprise a surface consisting of a thin layer of a phase that is compatible with the matrix composition or a surface wherein a precursor has been reacted with the surface of the nanofiller, providing a polymer matrix, mixing the nanofillers with the polymer matrix at a loading below a loading of 80% by volume thereby producing nanocomposite with wear rate that differs by more than 20% as compared with the wear rate exhibited by a composite material of similar composition with filler particles having a domain size of at least one micron, and wherein the nanocomposite has a transparency to light that differs by more than 20% as compared with the transparency to light exhibited by a composite material of similar composition with filler particles having a domain size of at least one micron. - View Dependent Claims (22, 23, 24, 25)
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26. A method for preparing a polymer nanocomposite comprising:
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providing nanofillers comprising particles with a domain size less than 100 nanometers and an aspect ratio ranging from 1 to 3; providing a fluid comprising a monomer; wherein the nanofillers comprise a surface consisting of a thin layer of a phase that is compatible with the matrix composition or a surface wherein a precursor has been reacted with the surface of the nanofiller; mixing the nanofillers with the fluid comprising a monomer, wherein the nanofillers are mixed in at a loading below a loading of 80% by volume, wherein the polymer nanocomposite is applied in the form of a layer over another substance; and polymerizing the mixture comprising nanofillers and the fluid thereby producing a polymer nanocomposite. - View Dependent Claims (27, 28, 29, 30, 31, 32)
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33. A method for preparing a polymer nanocomposite comprising:
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providing nanofillers comprising particles with a domain size less than 100 nanometers and an aspect ratio ranging from 1 to 3; providing a fluid comprising a monomer; wherein the nanofillers comprise a surface consisting of a surface wherein a precursor has been reacted with the surface of the nanofiller; mixing the nanofillers with the fluid comprising a monomer, wherein the nanofillers are mixed in at a loading below a loading of 80% by volume, wherein the precursor reacted with the surface of the nanofillers comprises of a monomer; and polymerizing the mixture comprising nanofillers and the fluid thereby producing a polymer nanocomposite. - View Dependent Claims (34)
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Specification