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Oku, Takeo. Solar cells and energy materials [[electronic resource]] / Takeo Oku. — 1 online resource — <URL:http://elib.fa.ru/ebsco/1458966.pdf>.

Record create date: 1/6/2017

Subject: Solar cells.; Photovoltaic cells.; Electric batteries.; Electric power transmission.; Electric batteries.; Electric power transmission.; Photovoltaic cells.; Solar cells.; TECHNOLOGY & ENGINEERING / Mechanical

Collections: EBSCO

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Table of Contents

  • Preface
  • Contents
  • Table for physical constants
  • Periodic table
  • 1 Energy
    • 1.1 What is energy?
    • 1.2 Fermions and bosons
    • 1.3 Important physical constants in the universe
    • 1.4 Four fundamental forces of nature
    • 1.5 The mass of light
    • 1.6 The materialization of light and antimatter
    • 1.7 Bose-Einstein condensation and freezing light
    • 1.8 Quantum brain theory and light
    • 1.9 The materialization of vacuum
    • 1.10 The energy constitution of the entire universe
    • 1.11 Cosmological constant
    • 1.12 Bibliography
  • 2 Solar energy
    • 2.1 Energy problems and entropy on Earth
    • 2.2 The energy circulation of photons and electrons
    • 2.3 Homeostasis of life and civilization
    • 2.4 Global warming
    • 2.5 Solar light and Earth
    • 2.6 Renewable energy
    • 2.7 Solar energy plan
    • 2.8 Bibliography
  • 3 Basics of solar cells
    • 3.1 Properties of semiconductors
    • 3.2 pn junction
    • 3.3 Photovoltaic effect
    • 3.4 Energy loss and the requirements for high efficiency
    • 3.5 Characterization of solar cells
    • 3.6 Internal and external quantum efficiency
    • 3.7 Series and shunt resistances
    • 3.8 Bibliography
  • 4 Inorganic solar cells
    • 4.1 Comparison of solar cells
    • 4.2 Amorphous Si
    • 4.3 HIT
    • 4.4 CdTe
    • 4.5 CIGS
    • 4.6 Spherical Si
    • 4.7 ZnO/Cu2O
    • 4.8 Bibliography
  • 5 Organic-type solar cells
    • 5.1 Donor-acceptor type organic solar cells
    • 5.2 Exciton
    • 5.3 Bulk heterojunction
    • 5.4 P3HT:PCBM
    • 5.5 Phthalocyanine dimer
    • 5.6 ZnTPP:C60
    • 5.7 Diamond:C60
    • 5.8 Ge nanoparticles
    • 5.9 Dye-sensitized solar cells
    • 5.10 Polysilane system
    • 5.11 PCBM:P3HT with SiPc or SiNc
    • 5.12 Bibliography
  • 6 Perovskite-type solar cells
    • 6.1 Perovskite structures and synthesis
    • 6.2 Crystal structures of CH3NH3PbX3 (X = Cl, Br, or I)
    • 6.3 X-ray diffraction of CH3NH3PbI3
    • 6.4 Electron diffraction of CH3NH3PbI3
    • 6.5 Other perovskite structures for solar cells
    • 6.6 Basic device structures
    • 6.7 Enlargement of cell
    • 6.8 Electron transport layers
    • 6.9 Halogen doping to CH3NH3PbI3
    • 6.10 Metal doping to CH3NH3PbI3
    • 6.11 Bibliography
  • 7 Future solar cells
    • 7.1 Next generation solar cells
    • 7.2 Multi-junction
    • 7.3 Quantum size effect
    • 7.4 Quantum dots
    • 7.5 Intermediate band type
    • 7.6 Multi-exciton
    • 7.7 Hot carrier type
    • 7.8 Space solar power system
    • 7.9 Bibliography
  • 8 Nuclear fusion materials
    • 8.1 Nuclear fusion in the sun
    • 8.2 DT and DD fusion
    • 8.3 Fusion conditions
    • 8.4 ITER
    • 8.5 Muon catalyzed fusion
    • 8.6 Pyroelectric fusion
    • 8.7 Condensation fusion in solids
    • 8.8 Fusion reactormaterials
    • 8.9 Bibliography
  • 9 Other energy materials
    • 9.1 Hydrogen storagematerials
    • 9.2 BN nanomaterials
    • 9.3 Calculations of hydrogen storage
    • 9.4 Thermoelectric power generation
    • 9.5 Icosahedral boron
    • 9.6 Titanium dioxide
    • 9.7 Zeolite
    • 9.8 Lithium-ion batteries
    • 9.9 Si clathrate
    • 9.10 Ice and hydrate
    • 9.11 Fuel cells
    • 9.12 SiC FET
    • 9.13 Two Concluding Asides
      • 9.13.1 The energy of a vacuum
      • 9.13.2 The energy of the mind
    • 9.14 Bibliography
  • Index

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