Indoor Photovoltaics. Группа авторов
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4 Chapter 5Figure 5.1 Diagram with (a) AM1.5 spectrum from IEC 60904-3, (b) fluorescent...Figure 5.2 (a) The metrological pyramid with the NMIs at the top and the acc...Figure 5.3 Schematic diagram of the Laser-DSR facility. In the lower half th...Figure 5.4 CAD drawing of the Laser-DSR facility showing the three major par...Figure 5.5 Photo of the complete laser setup with the beam routed through th...Figure 5.6 On the left-hand side of the photo the integrated solar cell goni...Figure 5.7 Schematic diagram of the Pulse-to-CW converter: A fiber bundle wi...Figure 5.8 Absolute spectral responsivity of a GaAs IPV cell, produced by th...Figure 5.9 Absolute spectral responsivity of an AlGaAs IPV cell, produced by...
5 Chapter 6Figure 6.1 Traditional lens-based concentrator PV device (a) versus a PV-win...Figure 6.2 A simplified Jablonski diagram of luminescence processes in dyes....Figure 6.3 Normalized absorption and emission for BASF Lumogen F Red 305 [7]...Figure 6.4 The development of the binding energy of an electron in a state o...Figure 6.5 Optical transitions in CaBr2:Tm2+ (top) and AlN:Eu3+,O2– (b...Figure 6.6 The different types of core/shell quantum dots [27].Figure 6.7 Schematic of the working of a single-layer LSC. Other configurati...Figure 6.8 Theoretical efficiencies of a Red305 LSC with varying absorption ...Figure 6.9 Power efficiencies for two hypothetical LSCs without self-absorpt...Figure 6.10 Properties of Lumogen Orange [52]. (a) Absorption and emission s...Figure 6.11 A general schematic representation of the MC ray tracing flow. R...Figure 6.12 MC simulation for a hypothetical Red305 LSC with 80% visible tra...Figure 6.13 Example of the CIE 1931 color space chromaticity diagram with ap...Figure 6.14 Absorption and emission spectra of dye materials used for LSCs. ...Figure 6.15 Absorption and emission spectra of rare earth-based LSCs. In the...Figure 6.16 Absorption and emission spectra of LSCs based on core quantum do...Figure 6.17 Absorption and emission spectra LSCs based on core/shell quantum...Figure 6.18 Absorption and emission spectra LSCs based on doped core and dop...Figure 6.19 Absorption and emission of several Tm2+-doped halides. In the in...Figure 6.20 Absorption and emission spectra of selected LSC materials from S...Figure 6.21 Examples of colorful LSCs used as designs, (a) Waveguide with LS...
6 Chapter 7Figure 7.1 Basic principles of OPV operation and typical materials and thick...Figure 7.2 Experimental efficiencies of OPV, Dye and Perovskite PV cells tak...Figure 7.3 Efficiency of photovoltaic cells as a function of Rp for differen...Figure 7.4 Maximum theoretical efficiency as function of bandgap for differe...Figure 7.5 Monolithic series circuitry in a module. The photovoltaic array i...Figure 7.6 Simulation of device efficiency for single cells (black) and modu...Figure 7.7 OPV flower designed by Fraunhofer ISE and gravure printed by VTT ...
7 Chapter 8Figure 8.1 A silicon PV energy harvester (Panasonic) [10] (a). Dye-sensitize...Figure 8.2 (a) Comparison of commercial indoor Photovoltaic (PV) Energy Harv...Figure 8.3 Side view of semiconductor packaging method used for Lightricity’...Figure 8.4 I-V (blue line) and the P-V curves (red line) of the PV energy ha...Figure 8.5 Output power density of Lightricity’s energy harvesting module as...Figure 8.6 Typical circuit diagram of commercially available power managemen...Figure 8.7 Block diagram of the LTC4071.Figure 8.8 Light IV curves of Lightricity’s energy harvesting device as a fu...Figure 8.9 Output power of Lightricity’s energy harvesting device as a funct...Figure 8.10 Normalized efficiency of Lightricity’s energy harvesting device ...Figure 8.11 Experimental setup for load simulation measurements.Figure 8.12 The 50 mm × 20 mm × 15 mm IPEHPM. Top: PV energy harvesting modu...Figure 8.13 Output power of the PV energy harvesting module (pink squares), ...Figure 8.14 Functionality vs. power requirements in energy-harvesting powere...Figure 8.15 A 70 × 50 × 20 mm autonomous IoT sensor node for building automa...Figure 8.16 Block diagram of the building automation sensor. Sensor and radi...Figure 8.17 Current profile for a single CO2 measurement and wireless transm...Figure 8.18 Energy harvesting power pack (Lightricity, Ilika).
8 Chapter 9Figure 9.1 Calculated ideal (a) current density versus voltage and (b) power...Figure 9.2 Calculated maximum power density versus illuminance for select ma...Figure 9.3 Schematic illustration of the generalized wafer structure used in...Figure 9.4 Close-up image of the GaAs thin film photovoltaic cell array and ...Figure 9.5 Simulated J-V and P-V curves for PV cells under typical AM1.5 and...Figure 9.6 Schematic diagram of an AlGaAs PV cell optimized for indoor light...Figure 9.7 External quantum efficiency comparison of PV cells with GaAs and ...Figure 9.8 Measured (a) J-V and (b) P-V characteristics comparing GaAs and A...Figure 9.9 Power conversion efficiency and fill factor versus white LED illu...Figure 9.10 Dark current density of GaAs PV cell with area of 0.172 mm2 and ...Figure 9.11 Reverse saturation current density of dominant space charge regi...Figure 9.12 Calculated power conversion efficiency versus side length for PV...Figure 9.13 Schematic diagrams of (a) device structure illustrating shunt le...Figure 9.14 Measured J-V and P-V characteristics of GaAs PV modules under wh...Figure 9.15 Measured shunt leakage current (a) under dark condition and (b) ...Figure 9.16 Comparison of measured conversion efficiency and fill factor und...
Guide
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2 Table of Contents
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