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0 (hodnocen0 x )

EB

ONLINE

1st ed.

Amsterdam : Amsterdam University Press, 2017

1 online resource (245 pages)

ISBN 9789048534623 (electronic bk.)

ISBN 9789462984127

Atlantis Advances in Nanotechnology, Material Science and Energy Technologies Ser.

Print version: Natowitz, Joseph Our Nanotechnology Future Amsterdam : Amsterdam University Press,c2017 ISBN 9789462984127

Intro -- Introduction -- I. Nanoscience and nanotechnology -- The size domain of nanoscience and nanotechnology -- Nanotechnology in the past -- Intellectual foundations of nanotechnology -- Can we see atoms? -- The scanning tunneling microscope -- The atomic force microscope -- Manipulating atoms -- Summary -- II. The Quantum world -- Classical versus quantum mechanics -- Wave-particle duality -- Determinism versus a probabilistic approach -- Measurement -- Quantization -- Heisenberg uncertainty principle -- Quantum numbers -- Spin - an intrinsic property -- Fermions and bosons -- Quantum tunneling -- Summary -- III. The mesoscopic world -- The forces of nature -- The role of size -- Surface versus volume -- Surface tension -- Nanofluids -- Heat transfer -- Chemical bonding -- Intermolecular forces -- Van der Waals forces -- Hydrogen bonds -- Semi-classical approaches -- Summary -- IV. Nanomaterials and nanostructures -- Classifying nanomaterials -- Nanostructuration -- Dendrimers -- Hybrid organic-inorganic nanomaterials -- Nanocomposites -- Smart materials -- Summary -- V. Natural nanomaterials -- Nanomaterials in nature -- Self-cleaning surfaces -- Reversible adhesives -- Lightweight materials -- Manipulating light at the nanoscale -- Fibers stronger than steel -- Low-friction materials -- Multiscale structures -- Summary -- VI. Nanofabrication -- Top-down and bottom-up approaches -- Lithography -- Nanolithography -- e-beam lithography -- Helium-ion lithography -- Nanoimprint lithography -- Dip-pen nanolithography -- Deposition at the nanoscale -- Atomic layer deposition -- Self-assembled monolayers -- Covalent bonds -- Langmuir-Blodgett films -- Polishing, etching, patterning -- Chemical mechanical polish -- Summary -- VII. King carbon -- Fullerenes -- Graphene -- Carbon nanotubes -- Summary -- VIII. Health Diagnostics -- Major diseases.

Designing nanocatalysts -- Summary -- XVI. Energy production -- Fossil fuels -- Renewable energies -- Solar energy -- Wind energy -- Energy storage -- Batteries -- Supercapacitors -- Electricity -- Hydrogen -- Fuel cells -- Thermoelectricity -- Nuclear energy -- Summary -- XVII. Housing -- Outside the building -- Inside the buildings -- Insulation -- Lighting -- Heating, ventilating and air conditioning -- Summary -- XVIII. Nanotechnology in automobiles -- Bodywork -- Interior of the car -- Chassis and tires -- Power train -- Electronics -- Batteries and supercapacitors -- Summary -- XIX. Defense and security -- Defense -- The modern warrior -- Mobility -- Weapons -- Homeland security -- Detection -- Protection -- Response -- Repair -- Summary -- XX. Nanotoxicity -- Hazard and risk -- Nanomaterials and nanoparticles -- Nanoparticle sources -- Nanoparticle exposure -- Toxicity of nanoparticles -- Natural nanoparticles -- Anthropogenic nanoparticles -- Engineered nanoparticles -- Summary -- Notes -- I. Nanoscience and nanotechnology -- II. The Quantum world -- III. The mesoscopic world -- VII. King carbon -- VIII. Health Diagnostics -- X. Regenerative medicine -- XV. Nanocatalysis -- XVI. Energy production -- XVII. Housing -- XX. Nanotoxicity -- List of illustrations’ copyright and licensing -- Short bibliography -- Introduction -- I. Nanoscience and nanotechnology -- The size domain of nanoscience and nanotechnology -- Nanotechnology in the past -- Intellectual foundations of nanotechnology -- Can we see atoms? -- The scanning tunneling microscope -- The atomic force microscope -- Manipulating atoms -- Summary -- II. The Quantum world -- Classical versus quantum mechanics -- Wave-particle duality -- Determinism versus a probabilistic approach -- Measurement -- Quantization -- Heisenberg uncertainty principle -- Quantum numbers.

Manipulating light at the nanoscale -- Fibers stronger than steel -- Low-friction materials -- Multiscale structures -- Summary -- VI. Nanofabrication -- Top-down and bottom-up approaches -- Lithography -- Nanolithography -- e-beam lithography -- Helium-ion lithography -- Nanoimprint lithography -- Dip-pen nanolithography -- Deposition at the nanoscale -- Atomic layer deposition -- Self-assembled monolayers -- Covalent bonds -- Langmuir-Blodgett films -- Polishing, etching, patterning -- Chemical mechanical polish -- Summary -- VII. King carbon -- Fullerenes -- Graphene -- Carbon nanotubes -- Summary -- VIII. Health Diagnostics -- Major diseases -- Diagnosis -- Imaging -- In-Vitro Diagostics -- Biosensors -- Biochips -- Labs-on-chips -- Cells-on-chips -- Summary -- IX. Therapeutics -- Drug delivery -- Delivery routes -- Drug carriers -- Nanoparticles and drug delivery -- Summary -- X. Regenerative medicine -- Biomaterials -- Cell therapy -- Implants -- Dentistry -- Nanosurgery -- Summary -- XI. The Food Chain -- Feeding people -- Agricultural Production -- Food processing -- Packaging -- Transportation -- Summary -- XII. From microelectronics to nanoelectronics -- Transistors -- Moore’s law -- Technology nodes -- Memories -- Smaller, faster and cheaper -- Summary -- XIII. Quantum nanoelectronics -- Towards few-electron electronics -- Coulomb blockade -- The single electron transistor -- Quantum dots -- Spintronics -- Nanophotonics -- Confining and Controlling light -- Photonic crystals -- Plasmonics -- Metamaterials -- Summary -- XIV. Molecular electronics -- Electronic conduction -- Difficulties -- Molecular wires -- Molecular diodes and transistors -- Conductive polymers -- Self-assembled monolayers -- Summary -- XV. Nanocatalysis -- Catalysts make life easier -- Nanocatalysts for chemical reactions -- Enzymes speed up biological reactions.

Weapons -- Homeland security -- Detection -- Protection -- Response -- Repair -- Summary -- XX. Nanotoxicity -- Hazard and risk -- Nanomaterials and nanoparticles -- Nanoparticle sources -- Nanoparticle exposure -- Toxicity of nanoparticles -- Natural nanoparticles -- Anthropogenic nanoparticles -- Engineered nanoparticles -- Summary -- Notes -- I. Nanoscience and nanotechnology -- II. The Quantum world -- III. The mesoscopic world -- VII. King carbon -- VIII. Health Diagnostics -- X. Regenerative medicine -- XV. Nanocatalysis -- XVI. Energy production -- XVII. Housing -- XX. Nanotoxicity -- List of illustrations’ copyright and licensing -- Short bibliography -- Introduction -- I. Nanoscience and nanotechnology -- The size domain of nanoscience and nanotechnology -- Nanotechnology in the past -- Intellectual foundations of nanotechnology -- Can we see atoms? -- The scanning tunneling microscope -- The atomic force microscope -- Manipulating atoms -- Summary -- II. The Quantum world -- Classical versus quantum mechanics -- Wave-particle duality -- Determinism versus a probabilistic approach -- Measurement -- Quantization -- Heisenberg uncertainty principle -- Quantum numbers -- Spin - an intrinsic property -- Fermions and bosons -- Quantum tunneling -- Summary -- III. The mesoscopic world -- The forces of nature -- The role of size -- Surface versus volume -- Surface tension -- Nanofluids -- Heat transfer -- Chemical bonding -- Intermolecular forces -- Van der Waals forces -- Hydrogen bonds -- Semi-classical approaches -- Summary -- IV. Nanomaterials and nanostructures -- Classifying nanomaterials -- Nanostructuration -- Dendrimers -- Hybrid organic-inorganic nanomaterials -- Nanocomposites -- Smart materials -- Summary -- V. Natural nanomaterials -- Nanomaterials in nature -- Self-cleaning surfaces -- Reversible adhesives -- Lightweight materials.

Designing nanocatalysts -- Summary -- XVI. Energy production -- Fossil fuels -- Renewable energies -- Solar energy -- Wind energy -- Energy storage -- Batteries -- Supercapacitors -- Electricity -- Hydrogen -- Fuel cells -- Thermoelectricity -- Nuclear energy -- Summary -- XVII. Housing -- Outside the building -- Inside the buildings -- Insulation -- Lighting -- Heating, ventilating and air conditioning -- Summary -- XVIII. Nanotechnology in automobiles -- Bodywork -- Interior of the car -- Chassis and tires -- Power train -- Electronics -- Batteries and supercapacitors -- Summary -- XIX. Defense and security -- Defense -- The modern warrior -- Mobility -- Weapons -- Homeland security -- Detection -- Protection -- Response -- Repair -- Summary -- XX. Nanotoxicity -- Hazard and risk -- Nanomaterials and nanoparticles -- Nanoparticle sources -- Nanoparticle exposure -- Toxicity of nanoparticles -- Natural nanoparticles -- Anthropogenic nanoparticles -- Engineered nanoparticles -- Summary -- Notes -- I. Nanoscience and nanotechnology -- II. The Quantum world -- III. The mesoscopic world -- VII. King carbon -- VIII. Health Diagnostics -- X. Regenerative medicine -- XV. Nanocatalysis -- XVI. Energy production -- XVII. Housing -- XX. Nanotoxicity -- List of illustrations’ copyright and licensing -- Short bibliography -- Introduction -- I. Nanoscience and nanotechnology -- The size domain of nanoscience and nanotechnology -- Nanotechnology in the past -- Intellectual foundations of nanotechnology -- Can we see atoms? -- The scanning tunneling microscope -- The atomic force microscope -- Manipulating atoms -- Summary -- II. The Quantum world -- Classical versus quantum mechanics -- Wave-particle duality -- Determinism versus a probabilistic approach -- Measurement -- Quantization -- Heisenberg uncertainty principle -- Quantum numbers.

Diagnosis -- Imaging -- In-Vitro Diagostics -- Biosensors -- Biochips -- Labs-on-chips -- Cells-on-chips -- Summary -- IX. Therapeutics -- Drug delivery -- Delivery routes -- Drug carriers -- Nanoparticles and drug delivery -- Summary -- X. Regenerative medicine -- Biomaterials -- Cell therapy -- Implants -- Dentistry -- Nanosurgery -- Summary -- XI. The Food Chain -- Feeding people -- Agricultural Production -- Food processing -- Packaging -- Transportation -- Summary -- XII. From microelectronics to nanoelectronics -- Transistors -- Moore’s law -- Technology nodes -- Memories -- Smaller, faster and cheaper -- Summary -- XIII. Quantum nanoelectronics -- Towards few-electron electronics -- Coulomb blockade -- The single electron transistor -- Quantum dots -- Spintronics -- Nanophotonics -- Confining and Controlling light -- Photonic crystals -- Plasmonics -- Metamaterials -- Summary -- XIV. Molecular electronics -- Electronic conduction -- Difficulties -- Molecular wires -- Molecular diodes and transistors -- Conductive polymers -- Self-assembled monolayers -- Summary -- XV. Nanocatalysis -- Catalysts make life easier -- Nanocatalysts for chemical reactions -- Enzymes speed up biological reactions -- Designing nanocatalysts -- Summary -- XVI. Energy production -- Fossil fuels -- Renewable energies -- Solar energy -- Wind energy -- Energy storage -- Batteries -- Supercapacitors -- Electricity -- Hydrogen -- Fuel cells -- Thermoelectricity -- Nuclear energy -- Summary -- XVII. Housing -- Outside the building -- Inside the buildings -- Insulation -- Lighting -- Heating, ventilating and air conditioning -- Summary -- XVIII. Nanotechnology in automobiles -- Bodywork -- Interior of the car -- Chassis and tires -- Power train -- Electronics -- Batteries and supercapacitors -- Summary -- XIX. Defense and security -- Defense -- The modern warrior -- Mobility.

Manipulating light at the nanoscale -- Fibers stronger than steel -- Low-friction materials -- Multiscale structures -- Summary -- VI. Nanofabrication -- Top-down and bottom-up approaches -- Lithography -- Nanolithography -- e-beam lithography -- Helium-ion lithography -- Nanoimprint lithography -- Dip-pen nanolithography -- Deposition at the nanoscale -- Atomic layer deposition -- Self-assembled monolayers -- Covalent bonds -- Langmuir-Blodgett films -- Polishing, etching, patterning -- Chemical mechanical polish -- Summary -- VII. King carbon -- Fullerenes -- Graphene -- Carbon nanotubes -- Summary -- VIII. Health Diagnostics -- Major diseases -- Diagnosis -- Imaging -- In-Vitro Diagostics -- Biosensors -- Biochips -- Labs-on-chips -- Cells-on-chips -- Summary -- IX. Therapeutics -- Drug delivery -- Delivery routes -- Drug carriers -- Nanoparticles and drug delivery -- Summary -- X. Regenerative medicine -- Biomaterials -- Cell therapy -- Implants -- Dentistry -- Nanosurgery -- Summary -- XI. The Food Chain -- Feeding people -- Agricultural Production -- Food processing -- Packaging -- Transportation -- Summary -- XII. From microelectronics to nanoelectronics -- Transistors -- Moore’s law -- Technology nodes -- Memories -- Smaller, faster and cheaper -- Summary -- XIII. Quantum nanoelectronics -- Towards few-electron electronics -- Coulomb blockade -- The single electron transistor -- Quantum dots -- Spintronics -- Nanophotonics -- Confining and Controlling light -- Photonic crystals -- Plasmonics -- Metamaterials -- Summary -- XIV. Molecular electronics -- Electronic conduction -- Difficulties -- Molecular wires -- Molecular diodes and transistors -- Conductive polymers -- Self-assembled monolayers -- Summary -- XV. Nanocatalysis -- Catalysts make life easier -- Nanocatalysts for chemical reactions -- Enzymes speed up biological reactions.

Spin - an intrinsic property.

001895657

express

Contents // Introduction 11 // Part i Nanotechnology basics 13 // I. Nanoscience and nanotechnology 15 // The size domain of nanoscience and nanotechnology 15 // Nanotechnology in the past 17 // Intellectual foundations of nanotechnology 18 // Can we see atoms? 19 // The scanning tunneling microscope 20 // The atomic force microscope 23 // Manipulating atoms 24 // Summary 26 // II. The Quantum world 27 // Classical versus quantum mechanics 27 // Wave-particle duality 28 // Determinism versus a probabilistic approach 28 // Measurement 30 // Quantization 31 // Heisenberg uncertainty principle 32 // Quantum numbers 34 // Spin - an intrinsic property 34 // Fermions and bosons 35 // Quantum tunneling 36 // Summary 38 // III. The mesoscopic world 40 // The forces of nature 40 // The role of size 40 // Surface versus volume 41 // Surface tension 43 // Nanofluids 43 // Heat transfer 44 // Chemical bonding 44 // Intermolecular forces 45 // 6 CONTENTS // Semi-classical approaches x 47 // Summary 48 // IV. Nanomaterials and nanostructures 49 // Classifying nanomaterials 49 // Nanostructuration 51 // Dendrimers 55 // Hybrid organic-inorganic nanomaterials 57 // Nanocomposites 58 // Smart materials 59 // Summary 60 // V. Natural nanomaterials 61 // Nanomaterials in nature 61 // Self-cleaning surfaces 61 // Reversible adhesives 62 // Lightweight materials 64 // Manipulating light at the nanoscale 65 // Fibers stronger than steel 67 // Low-friction materials 69 // Multiscale structures 89

Summary 69 // VI. Nanofabrication 71 // Top-down and bottom-up approaches 71 // Lithography 72 // Deposition at the nanoscale 78 // Polishing, etching, patterning 82 // Summary 83 // VII. King carbon 84 // Fullerenes 84 // Graphene 88 // Carbon nanotubes 90 // Summary 94 // Part 2 Applications of nanotechnology 97 // VIII. Health Diagnostics 99 // Major diseases 100 // CONTENTS 7 // Diagnosis loi // Imaging loi // In-Vitro Diagostics 103 // Biosensors 104 // Biochips 106 // Labs-on-chips 108 // Cells-on-chips 110 // Summary 111 // IX. Therapeutics 112 // Drug delivery 112 // Delivery routes 113 // Drug carriers 114 // Nanoparticles and drug delivery 116 // Summary 118 // X. Regenerative medicine 120 // Biomaterials 120 // Cell therapy 121 // Implants 122 // Dentistry 124 // Nanosurgery 126 // Summary 127 // XL The Food Chain 128 // Feeding people 128 // Agricultural Production 130 // Food processing 131 // Packaging 133 // Transportation 134 // Summary 135 // XII. From microelectronics to nanoelectronics 136 // Transistors 136 // Moore’s law 137 // Technology nodes 139 // Memories 139 // Smaller, faster and cheaper 143 // Summary 144 // 8 // CONTENTS // x // XIII. Quantum nanoelectronics 145 // Towards few-electron electronics 145 // Coulomb blockade 146 // The single electron transistor 149 // Quantum dots 151 // Spintronics 154 // Nanophotonics 157 // Confining and Controlling light 158 // Photonic crystals 158 // Plasmonics 161 // Metamaterials 162 // Summary 163 // XIV. Molecular

electronics 164 // Electronic conduction 164 // Difficulties 165 // Molecular wires 166 // Molecular diodes and transistors 168 // Conductive polymers 169 // Self-assembled monolayers 171 // Summary 171 // XV. Nanocatalysis 17? // Catalysts make life easier 17? // Nanocatalysts for chemical reactions 175 // Enzymes speed up biological reactions 177 // Designing nanocatalysts 178 // Summary 179 // XVI. Energy production 181 // Fossil fuels 182 // Renewable energies 184 // Energy storage 185 // Electricity 187 // Hydrogen 187 // Fuel cells 188 // Thermoelectricity 189 // Nuclear energy 190 // Summary 192 // CONTENTS 9 // XVII. Housing 193 // Outside the building 193 // Inside the buildings 195 // Summary 200 // XVIII. Nanotechnology in automobiles 201 // Bodywork 201 // Interior of the car 205 // Chassis and tires 205 // Power train 206 // Electronics 207 // Batteries and supercapacitors 207 // Summary 209 // XIX. Defense and security 211 // Defense 211 // Homeland security 216 // Summary 223 // XX. Nanotoxicity 224 // Hazard and risk 224 // Nanomaterials and nanoparticles 225 // Nanoparticle sources 226 // Nanoparticle exposure 226 // Toxicity of nanoparticles 227 // Natural nanoparticles 231 // Anthropogenic nanoparticles 233 // Engineered nanoparticles 234 // Summary 236 // Notes 239 // List of illustrations’ copyright and licensing 242 // Short bibliography // 244

(Au-PeEL)EBL6635544

(MiAaPQ)EBC6635544

(OCoLC)1256450542