Graphene
portes grátis
Graphene
From Theory to Applications
Zhang, Tianrong
Springer Verlag, Singapore
04/2022
142
Dura
Inglês
9789811645884
15 a 20 dias
407
Descrição não disponível.
Chapter 1: Discovery of Graphene1. What is graphene2. Andre Geim's random walk 3. Flying frog and gecko tape4. Sticky tape led to Nobel Prize5. Carbon atom family
Chapter 2: Quantum Mechanics1. Quantum Essences2. Wave-particle duality3. Quantum Tunneling effect4. Spins5. Identical particles6. Quantum entanglement7. Wave functions8. Uncertainty principle9. Wave function collapse10. Probability
Chapter 3: Microscopy Graphene-----Graphene under Microscopy1. Atom and electron cloud2. Covalent bond and hybrid orbital3. A Snapshot of the inside of an atom4. Microscopy techniques5. Spectral analysis6. Angle-resolved photoemission spectroscopy7. Experimental observation of graphene
Chapter 4: Energy Bands in Crystals1. Structure determines properties2. What is a crystal?3. What is electronic band?4. Conductors, insulators, semiconductors5. Free electrons in crystals6. Effective mass and energy band diagram7. The significance of effective mass
Chapter 5: Electrons Dance in Graphene1. Band structure of graphene2. Free-electron approximation3. Schrodinger equation4. Special Theory of Relativity5. Dirac equation6. Dirac cone
Chapter 6: Quantum Topology1. Rubber-Sheet Geometry2. Classic Hall effect3. Quantum Hall effect4. Hall effect in graphene5. Laughlin State6. Spin dance of electrons7. Big familyof Hall effects8. Graphene and topological insulators
Chapter 7: New Materials1. Preparation of graphene2. Graphene family nanomaterials3. Derivatives of graphene4. Superconductivity and graphene5. Two-dimensional nanomaterials6. Three-dimensional graphene
Chapter 8: Applications and Prospect1. Energy Materials2. Electronic devices3. Ultra-thin material that is soft and rigid4. Lightweight and super strong materials5. Environmental purification6. Biomedicine7. Graphene and glass
Chapter 2: Quantum Mechanics1. Quantum Essences2. Wave-particle duality3. Quantum Tunneling effect4. Spins5. Identical particles6. Quantum entanglement7. Wave functions8. Uncertainty principle9. Wave function collapse10. Probability
Chapter 3: Microscopy Graphene-----Graphene under Microscopy1. Atom and electron cloud2. Covalent bond and hybrid orbital3. A Snapshot of the inside of an atom4. Microscopy techniques5. Spectral analysis6. Angle-resolved photoemission spectroscopy7. Experimental observation of graphene
Chapter 4: Energy Bands in Crystals1. Structure determines properties2. What is a crystal?3. What is electronic band?4. Conductors, insulators, semiconductors5. Free electrons in crystals6. Effective mass and energy band diagram7. The significance of effective mass
Chapter 5: Electrons Dance in Graphene1. Band structure of graphene2. Free-electron approximation3. Schrodinger equation4. Special Theory of Relativity5. Dirac equation6. Dirac cone
Chapter 6: Quantum Topology1. Rubber-Sheet Geometry2. Classic Hall effect3. Quantum Hall effect4. Hall effect in graphene5. Laughlin State6. Spin dance of electrons7. Big familyof Hall effects8. Graphene and topological insulators
Chapter 7: New Materials1. Preparation of graphene2. Graphene family nanomaterials3. Derivatives of graphene4. Superconductivity and graphene5. Two-dimensional nanomaterials6. Three-dimensional graphene
Chapter 8: Applications and Prospect1. Energy Materials2. Electronic devices3. Ultra-thin material that is soft and rigid4. Lightweight and super strong materials5. Environmental purification6. Biomedicine7. Graphene and glass
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Graphene-based Nanomaterials;Atomic Structures;Electronic Band Structures;Fundamental Properties;Technological Applications;Microscopy Graphene;Preparation Methods;Quantum Topology;New Materials
Chapter 1: Discovery of Graphene1. What is graphene2. Andre Geim's random walk 3. Flying frog and gecko tape4. Sticky tape led to Nobel Prize5. Carbon atom family
Chapter 2: Quantum Mechanics1. Quantum Essences2. Wave-particle duality3. Quantum Tunneling effect4. Spins5. Identical particles6. Quantum entanglement7. Wave functions8. Uncertainty principle9. Wave function collapse10. Probability
Chapter 3: Microscopy Graphene-----Graphene under Microscopy1. Atom and electron cloud2. Covalent bond and hybrid orbital3. A Snapshot of the inside of an atom4. Microscopy techniques5. Spectral analysis6. Angle-resolved photoemission spectroscopy7. Experimental observation of graphene
Chapter 4: Energy Bands in Crystals1. Structure determines properties2. What is a crystal?3. What is electronic band?4. Conductors, insulators, semiconductors5. Free electrons in crystals6. Effective mass and energy band diagram7. The significance of effective mass
Chapter 5: Electrons Dance in Graphene1. Band structure of graphene2. Free-electron approximation3. Schrodinger equation4. Special Theory of Relativity5. Dirac equation6. Dirac cone
Chapter 6: Quantum Topology1. Rubber-Sheet Geometry2. Classic Hall effect3. Quantum Hall effect4. Hall effect in graphene5. Laughlin State6. Spin dance of electrons7. Big familyof Hall effects8. Graphene and topological insulators
Chapter 7: New Materials1. Preparation of graphene2. Graphene family nanomaterials3. Derivatives of graphene4. Superconductivity and graphene5. Two-dimensional nanomaterials6. Three-dimensional graphene
Chapter 8: Applications and Prospect1. Energy Materials2. Electronic devices3. Ultra-thin material that is soft and rigid4. Lightweight and super strong materials5. Environmental purification6. Biomedicine7. Graphene and glass
Chapter 2: Quantum Mechanics1. Quantum Essences2. Wave-particle duality3. Quantum Tunneling effect4. Spins5. Identical particles6. Quantum entanglement7. Wave functions8. Uncertainty principle9. Wave function collapse10. Probability
Chapter 3: Microscopy Graphene-----Graphene under Microscopy1. Atom and electron cloud2. Covalent bond and hybrid orbital3. A Snapshot of the inside of an atom4. Microscopy techniques5. Spectral analysis6. Angle-resolved photoemission spectroscopy7. Experimental observation of graphene
Chapter 4: Energy Bands in Crystals1. Structure determines properties2. What is a crystal?3. What is electronic band?4. Conductors, insulators, semiconductors5. Free electrons in crystals6. Effective mass and energy band diagram7. The significance of effective mass
Chapter 5: Electrons Dance in Graphene1. Band structure of graphene2. Free-electron approximation3. Schrodinger equation4. Special Theory of Relativity5. Dirac equation6. Dirac cone
Chapter 6: Quantum Topology1. Rubber-Sheet Geometry2. Classic Hall effect3. Quantum Hall effect4. Hall effect in graphene5. Laughlin State6. Spin dance of electrons7. Big familyof Hall effects8. Graphene and topological insulators
Chapter 7: New Materials1. Preparation of graphene2. Graphene family nanomaterials3. Derivatives of graphene4. Superconductivity and graphene5. Two-dimensional nanomaterials6. Three-dimensional graphene
Chapter 8: Applications and Prospect1. Energy Materials2. Electronic devices3. Ultra-thin material that is soft and rigid4. Lightweight and super strong materials5. Environmental purification6. Biomedicine7. Graphene and glass
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
