Polymer Electrolytes for Facilitated Transport Membranes and for Dye-Sensitized Solar Cells

## Abstract We developed an ionic conductivity model of solid polymer electrolytes for dye‐sensitized solar cells (DSSCs) based on the Nernst–Einstein equation in which the diffusion coefficient is derived from the molecular thermodynamic model. We introduced concentration‐dependence of the diffusi

After the invention of the silicon solar cell, many researchers became interested in the enormous potential of solar energy. However, silicon materials are very expensive, and thus alternative solar cells are required for commercial applica-COMMUNICATIONS

## Abstract Ionic liquids have been identified as a new class of solvent that offers opportunities to move away from the traditional solvents. The physical‐chemical properties of ionic liquids can be tuned and controlled by tailoring their structures. The typical properties of ionic liquids, such a

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