Search Results - "semiconductor"

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  1. 381
    Thermodynamics and the destruction of natural resources

    Thermodynamics and the destruction of natural resources

    Published 2011
    Table of Contents: “…Case studies in energy use to realize ultra-high purities in semiconductor manufacturing Eric Williams, Nikhil Krishnan, Sarah Boyd; 8. …”
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  2. 382
    Thermodynamics and the destruction of natural resources

    Thermodynamics and the destruction of natural resources

    Published 2011
    Table of Contents: “…Case studies in energy use to realize ultra-high purities in semiconductor manufacturing Eric Williams, Nikhil Krishnan, Sarah Boyd; 8. …”
    An electronic book accessible through the World Wide Web; click to view
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  3. 383
    Polymers for electricity and electronics materials, properties, and applications /

    Polymers for electricity and electronics materials, properties, and applications / by Drobny, Jiri George

    Published 2012
    Table of Contents: “…Introduction.1.1 Electric Charge.1.2 Coulomb's Law.1.3 Conductors and Insulators.1.4 Capacitors.1.5 Dielectrics and Capacitance.1.6 Dielectric Polarizability.1.7 Voltage.1.8 Electric Currents.1.9 Resistance and Resistivity.1.11 Semiconductors.1.12 Superconductivity and Superconductors.1.13 Piezoelectricity.1.14 Pyroelectricity.1.15 Ferroelectricity.2. …”
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  4. 384
    Materiology : the creatives guide to materials and technologies /

    Materiology : the creatives guide to materials and technologies / by Kula, Daniel, Ternaux, Elodie

    Published 2014
    Table of Contents: “…Acrylonitrile butadiene styrene -- Aerogels -- Alucobond® -- Aluminum -- Asphalt -- Basalt, melted and lava -- Bakelite -- Bamboo -- Biopolymers -- Brass -- Bronze -- Burrs -- Carbon -- Cardboard -- Cast iron -- Cellulose acetate -- Ceramic, architectural -- Ceramic, technical -- Ceramic, traditional -- Chipboard -- Concretes, conventional -- Concretes, fibre -- Concrete, high performance -- Copper -- Cork -- Crystal -- Diamond -- Electroluminescence -- Emerald -- Epoxy or epoxides polyepoxides -- Felt -- Fibres, artificial -- Fibres, carbon, aramid, basalt -- Fibres, glass -- Fibres of animal origin -- Fibres of vegetable origin -- Fibres, synthetic -- Foams -- Full grain leather -- Fur -- Gallium -- Glass, 3D -- Glass, borosilicate -- Glass, coated -- Glass, security-safety -- Glass, toughened -- Glass, vitroceramic -- Gold -- Granite -- Honeycombs -- Horn -- Ivory -- Lacquer -- Laminated timber, glued -- Laminates -- Laser -- Latheboard or coreboard -- Lead -- LED -- LED, O-, P-, PHO- -- Light source, discharge fluorescent -- Light source, halogen incandescent -- Light source, sodium mercury discharge -- Light source, standard incandescent -- Limestone -- Liquidmetal® -- Lithium -- Magnesium -- Magnetic materials -- Marble -- MDF -- Mercury -- Metamaterials -- Mirrors -- Mortar -- Nacre -- Non-Newtonian fluids -- Nubuck-buckskin-suede -- Oriented strand-board -- Paper -- Parchment -- Phosphorescence-fluorescence -- Photovoltaic cell -- Piezoelectric materials -- Plaster -- Plywood -- Plywood, moulded -- Polyamide -- Polycarbonate -- Polyester -- Polymethyl methacrylate -- Polyoxymethylene -- Polypropylene -- Polystyrene -- Polytetrafluorethylene -- Polyurethane -- Polyvinal chloride -- Precious stones -- Rare earths -- Rubber-latex -- Ruby & sapphire -- Sandstone -- Schist -- Semiconductors -- Shape memory alloys -- Sharkskin or shagreen -- Shell -- Silicon -- Silicone -- Silver -- Solid surfaces -- Superconductors -- Stainless steel -- Steels -- Thermoplastic elastomers -- Tin -- Titanium -- Veneer -- Wood polymers -- Wood, retified -- Wood species -- XX-chromatic -- Zamak alloys -- Zinc -- Processes. …”
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  5. 385
    Polymers for electricity and electronics materials, properties, and applications /

    Polymers for electricity and electronics materials, properties, and applications / by Drobny, Jiri George

    Published 2012
    Table of Contents: “…Introduction.1.1 Electric Charge.1.2 Coulomb's Law.1.3 Conductors and Insulators.1.4 Capacitors.1.5 Dielectrics and Capacitance.1.6 Dielectric Polarizability.1.7 Voltage.1.8 Electric Currents.1.9 Resistance and Resistivity.1.11 Semiconductors.1.12 Superconductivity and Superconductors.1.13 Piezoelectricity.1.14 Pyroelectricity.1.15 Ferroelectricity.2. …”
    An electronic book accessible through the World Wide Web; click to view
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  6. 386
    Materiology : the creatives guide to materials and technologies /

    Materiology : the creatives guide to materials and technologies / by Kula, Daniel, Ternaux, Elodie

    Published 2014
    Table of Contents: “…Acrylonitrile butadiene styrene -- Aerogels -- Alucobond® -- Aluminum -- Asphalt -- Basalt, melted and lava -- Bakelite -- Bamboo -- Biopolymers -- Brass -- Bronze -- Burrs -- Carbon -- Cardboard -- Cast iron -- Cellulose acetate -- Ceramic, architectural -- Ceramic, technical -- Ceramic, traditional -- Chipboard -- Concretes, conventional -- Concretes, fibre -- Concrete, high performance -- Copper -- Cork -- Crystal -- Diamond -- Electroluminescence -- Emerald -- Epoxy or epoxides polyepoxides -- Felt -- Fibres, artificial -- Fibres, carbon, aramid, basalt -- Fibres, glass -- Fibres of animal origin -- Fibres of vegetable origin -- Fibres, synthetic -- Foams -- Full grain leather -- Fur -- Gallium -- Glass, 3D -- Glass, borosilicate -- Glass, coated -- Glass, security-safety -- Glass, toughened -- Glass, vitroceramic -- Gold -- Granite -- Honeycombs -- Horn -- Ivory -- Lacquer -- Laminated timber, glued -- Laminates -- Laser -- Latheboard or coreboard -- Lead -- LED -- LED, O-, P-, PHO- -- Light source, discharge fluorescent -- Light source, halogen incandescent -- Light source, sodium mercury discharge -- Light source, standard incandescent -- Limestone -- Liquidmetal® -- Lithium -- Magnesium -- Magnetic materials -- Marble -- MDF -- Mercury -- Metamaterials -- Mirrors -- Mortar -- Nacre -- Non-Newtonian fluids -- Nubuck-buckskin-suede -- Oriented strand-board -- Paper -- Parchment -- Phosphorescence-fluorescence -- Photovoltaic cell -- Piezoelectric materials -- Plaster -- Plywood -- Plywood, moulded -- Polyamide -- Polycarbonate -- Polyester -- Polymethyl methacrylate -- Polyoxymethylene -- Polypropylene -- Polystyrene -- Polytetrafluorethylene -- Polyurethane -- Polyvinal chloride -- Precious stones -- Rare earths -- Rubber-latex -- Ruby & sapphire -- Sandstone -- Schist -- Semiconductors -- Shape memory alloys -- Sharkskin or shagreen -- Shell -- Silicon -- Silicone -- Silver -- Solid surfaces -- Superconductors -- Stainless steel -- Steels -- Thermoplastic elastomers -- Tin -- Titanium -- Veneer -- Wood polymers -- Wood, retified -- Wood species -- XX-chromatic -- Zamak alloys -- Zinc -- Processes. …”
    An electronic book accessible through the World Wide Web; click to view
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  7. 387
    Electrical energy efficiency technologies and applications /

    Electrical energy efficiency technologies and applications /

    Published 2012
    Table of Contents: “…New trends on power semiconductors 9.4.1. Modulation Techniques 9.4.2. Review of different modulation methods. 9.4.3. …”
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  8. 388
    Electrical energy efficiency technologies and applications /

    Electrical energy efficiency technologies and applications /

    Published 2012
    Table of Contents: “…New trends on power semiconductors 9.4.1. Modulation Techniques 9.4.2. Review of different modulation methods. 9.4.3. …”
    An electronic book accessible through the World Wide Web; click to view
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  9. 389
    Transients of modern power electronics

    Transients of modern power electronics by Bai, Hua, 1980-

    Published 2011
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  10. 390
    Transients of modern power electronics

    Transients of modern power electronics by Bai, Hua, 1980-

    Published 2011
    An electronic book accessible through the World Wide Web; click to view
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  11. 391
    Auger electron spectroscopy : practical application to materials analysis and characterization of surfaces, interfaces, and thin films /

    Auger electron spectroscopy : practical application to materials analysis and characterization of surfaces, interfaces, and thin films / by Wolstenholme, John

    Published 2015
    An electronic book accessible through the World Wide Web; click to view
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  12. 392
    Auger electron spectroscopy : practical application to materials analysis and characterization of surfaces, interfaces, and thin films /

    Auger electron spectroscopy : practical application to materials analysis and characterization of surfaces, interfaces, and thin films / by Wolstenholme, John

    Published 2015
    An electronic book accessible through the World Wide Web; click to view
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