Polymer Films for Photovoltaic Applications

doi:10.3390/books978-3-0365-4675-9

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Polymer Films for Photovoltaic Applications

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July 2022

306 pages

ISBN978-3-0365-4676-6 (Hardback)
ISBN978-3-0365-4675-9 (PDF)

https://0-doi-org.brum.beds.ac.uk/10.3390/books978-3-0365-4675-9

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This book is a reprint of the Special Issue Polymer Films for Photovoltaic Applications that was published in

Chemistry & Materials Science

Engineering

Summary

Reprints of Polymers Special Issue entitled "Polymer films for photovoltaic applications", which covers all fields related to polymer films for photovoltaic applications, but special attention will be given to the following aspects:- The synthesis and suitable modification of polymer structure, to obtain polymer thin films for PV devices;- The influence of film deposition (thermal vacuum evaporation (TVE), chemical vapor deposition (CVD), spin coating, spray, etc.) on the properties of polymer films;- The thermo-optical properties of polymer thin films and blends of polymer films, as potential parts of PV systems;- The influence of doping or protonation of polymer thin films and blend polymer films on their properties;- Polymer thin films as active layers in PV solar cells—correlation of chemical structure and PV properties;- BHJ solar cells with polymer blends films—the choice of blend film composition to obtain the best PV parameters.

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Hardback

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Keywords

azomethines; supramolecular organization; organic thin films; polymer:fullerene blends; organic photovoltaics; memory device; organic semiconductors; poly-N-epoxy-propylcarbazole; tera-cyanoquino-dimethane; CsPbBr₃ perovskite QDs; amplified spontaneous emission (ASE); light amplification; surface passivation; photostability; 3D helicoidal architecture; fiber-based polymer composite; impact resistance; lightweight photovoltaics (PV); integrated PV rooftop; luminescent solar concentrator; polymer matrix; organic fluorophore; intramolecular charge transfer; light harvesting; dye; organic solar cells; ellipsometry; ternary organic films; morphology examination; micro; perovskite; solar cell; 3D printing; fused deposition modeling; artificially light-harvesting; luminescent solar concentrators; molecular alignability prediction; redirecting diffuse light; polymer:fullerene blend films; iodine doping; annealing effect; absorption edge parameters; exciton bandwidth; structural changes; BHJ solar cells; polymer; solar cell; bulk heterojunction; PEDOT:PSS; PTB7:PC70BM; PFN-Br; SCAPS 1D; encapsulants for PV modules; lamination process; EVA; POE; power conversion efficiency; hybrid perovskite; tandem structure; photovoltaics; commercialization; molecular modeling; stretching process; polymers; mechanical deformation; density functional theory; EVA; POE; crosslinking kinetics; dynamic mechanical analysis; activation energy; photovoltaics; indoloquinoxaline; low-cost polymer donor; wide-bandgap polymer; polymer solar cells; dye-sensitized solar cells; redox mediator; solid polymer electrolytes; succinonitrile; electrical conductivity; photovoltaics; dye-sensitized solar cells; bulk-heterojunction solar cells; perovskite solar cells; polymers; thin layers

Polymer Films for Photovoltaic Applications

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