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  1. 15.1 INTRODUCTION TO DYE-SENSITIZED SOLAR CELLS (DSSC) 15.1.1 Background Photoelectrochemical solar cells (PSCs), consisting of a photoelectrode, a redox elec-trolyte, and a counter electrode, have been studied extensively. Several semiconductor…
  2. We present a computationally efficient classical many-body potential that is capable of predicting the energetics of bulk silicon, silicon surfaces, and the interaction of hydrogen with silicon. The potential includes well established models for…
  3. High efficiency solar cells require high generation and low recombination rates. High bulk lifetime, well passivated surfaces, and lowly doped thin emitters allow for low recombination rates. Thin passivated emitters should be contacted locally in…
  4. Potential induced degradation (PID) may cause significant performance losses of solar power plants. The high electric potential difference between the encapsulated solar cells and the outer module construction leads to leakage currents with the…
  5. Computer models of hydrogenated amorphous silicon have been constructed by adding hydrogen atoms to broken bonds in periodic random-network models of pure amorphous silicon. The atomic coordinates of 12 examples containing 10-13 at. % have been…
  6. A host of astrophysical and cosmological arguments severely constrain the properties of a 17 keV Dirac neutrino. Such a neutrino must have interactions beyond those of the standard electroweak theory to reduce its cosmic abundance (through decay or…
  7. We develop a back contact monocrystalline thin-film silicon solar cell using the porous silicon process. Laser processes are applied for all structuring steps. Thus no photolithography or other masking techniques are required. A single evaporation…

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