Organic and hybrid solar cells : an introduction

With the increasing world-energy demand there is a growing necessity for clean and renewable energy. The sun being one of the most abundant potential sources accounts for less than 1% of the global energy supply. The market for solar cells is one of the most strongly increasing markets, even though the prize of conventional solar cells is still quite high. New emerging technologies, such as organic and hybrid solar cells have the potential to decrease the price of solar energy drastically. This book offers an introduction to these new types of solar cells and discusses fabrication, different architectures and their device physics on the bases of the author's teaching course on a master degree level. A comparison with conventional solar cells will be given and the specialties of organic solar cells emphasized.

From the Contents: General history of solar cells History of solar cells First applications First organic and hybrid solar cells Brief Introduction to solar cells Semiconductors (ligth matter interaction, light absorption, direct and indirect SCs) Doping, pn-junctions Solar cell parameters (current voltage, efficiency, efficiency limit) Physics of pn-junction solar cells (recombination, equivalen circuit, type of losses) Conventional solar cell architectures (materials, device structure, record devices) Introduction into organic and hybrid solar cells Organic semiconductors (molecules, polymers, pi-orbitals and transitions) Organic solar cells Device architecture (bulk-heterojuncion, bilayer) Fundamental working principle Morphology Materials and processing Physics of organic solar cells Exciton generation and diffusion Exciton separation and charge generation Charge transport and extraction Hybrid solar cells Dye-sensitized solar cells (architecture, fundamental working principle, materials and processing, and physics) Hybrid nanocrystal solar cells (architecture, fundamental working principle, materials and processing, and physics) Nanostructured solar cells (architecture, fundamental working principle, materials and processing, and physics) Experimental methods Standard characterization methods (IV, EQE, IQE) Spectroscopy methods Mass production/ lifetime (roll-to-roll, printing, flexible substrates, stability, lifetime)