Non-spherical nanopowder derived nanocomposites
First Claim
1. A nanocomposite comprising:
- a matrix;
inorganic nanofillers in the form of whiskers;
wherein the nanofillers have a composition comprising of two or more elements and a domain size less than 100 nanometers;
wherein the inorganic nanofillers are mixed into the matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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.
4 Assignments
0 Petitions
Accused Products
Abstract
Nanocomposites from nanofillers with preferred form of whiskers, rods, plates and fibers are disclosed. The matrix composition described includes polymers, ceramics and metals. The composition disclosed include inorganic, organic and metallic. These nanocomposites are useful in wide range of applications given their unusual properties such as 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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Citations
26 Claims
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1. A nanocomposite comprising:
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a matrix;
inorganic nanofillers in the form of whiskers;
wherein the nanofillers have a composition comprising of two or more elements and a domain size less than 100 nanometers;
wherein the inorganic nanofillers are mixed into the matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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 (2, 3, 4, 5, 6, 7, 8, 9)
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10. A nanocomposite comprising:
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a polymer matrix;
inorganic nanofillers in the form of whiskers;
wherein the nanofillers have a composition comprising of two or more elements;
the inorganic nanofillers are mixed into the polymer matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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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11. A nanocomposite comprising:
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a metal matrix;
inorganic nanofillers in the form of whiskers;
the inorganic nanofillers are mixed into the metal matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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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12. A nanocomposite comprising:
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a matrix;
inorganic nanofillers in the form of fibers;
wherein the nanofillers have a composition comprising of two or more elements and a domain size less than 100 nanometers;
wherein the inorganic nanofillers are mixed into the matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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 (13, 14, 15)
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16. A nanocomposite comprising:
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a metal matrix;
inorganic nanofillers in the form of fibers;
wherein the nanofillers have a composition comprising of two or more elements;
wherein the inorganic nanofillers are mixed into the metal matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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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17. A nanocomposite comprising:
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a matrix;
uncoated inorganic nanofillers in the form of plates;
wherein the nanofillers have a domain size less than 100 nanometers;
the inorganic nanofillers are mixed into the matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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 (18, 19)
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20. A nanocomposite comprising:
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a metal matrix;
inorganic nanofillers in the form of plates;
the inorganic nanofillers are mixed into the metal matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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 nanocomposite comprising:
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a matrix;
organic nanofillers comprising a form selected from the group consisting of;
whiskers, fibers and plates;
wherein the nanofillers have a domain size less than 100 nanometers;
wherein the organic nanofillers are mixed into the matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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 (22)
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23. A nanocomposite comprising:
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a matrix;
metallic nanofillers comprising a form selected from the group consisting of whiskers, fibers and plates;
wherein the nanofillers have a domain size less than 100 nanometers;
wherein the metallic nanofillers are mixed into the matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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 (24, 25)
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26. A nanocomposite comprising:
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a matrix;
nanofillers comprising a composition of two or more elements from the periodic table;
wherein at least one of the two or more elements is selected from the group consisting of aluminum, antimony, boron, bromine, carbon, chlorine, fluorine, germanium, hydrogen, indium, iodine, nitrogen, oxygen, phosphorus, selenium, silicon, sulfur, or tellurium;
wherein nanofillers comprise fillers with an aspect ratio greater than one;
wherein the nanofillers are mixed into the matrix at a loading less than 80 percent by volume to form a nanocomposite;
wherein the nanocomposite exhibits a material property that differs by more than 20% as compared with the material property exhibited by a composite of similar composition with fillers having a domain size of at least one micron; and
wherein the 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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Specification