Graphene
Graphene
From Theory to Applications
Zhang, Tianrong
Springer Verlag, Singapore
04/2022
142
Dura
Inglês
9789811645884
15 a 20 dias
407
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