Origin of high open-circuit voltage in solid state dye-sensitized solar cells employing polymer electrolyte
Scholar | Other documents of the author: Kim, Tea-Yon; Song, Donghoon; Barea Berzosa, Eva María; Lee, Jung Hyun; Kim, Young Rae; Cho, Woohyung; Lee, Sungjin; Rahman, Mohammed M.; Bisquert, Juan; Kang, Yong Soo
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TitleOrigin of high open-circuit voltage in solid state dye-sensitized solar cells employing polymer electrolyte
Herein, the energy level alignment and electron recombination kinetics in solid state dye-sensitized solar cells (DSCs) employing a solid polymer electrolyte (SPE) have been quantitatively characterized. In order to ... [+]
Herein, the energy level alignment and electron recombination kinetics in solid state dye-sensitized solar cells (DSCs) employing a solid polymer electrolyte (SPE) have been quantitatively characterized. In order to determine the microscopic origin of the enhanced characteristics in polymer electrolytes, we carried out an extensive study of the photovoltaic properties with respect to the electrolyte type and composition, including a liquid electrolyte (LE) and various salt types and concentrations. We observed a smaller downward shift in the conduction band energy of the TiO2 layer upon contact with the SPE as well as a retarded electron recombination rate. These led to an increase in the Voc for DSCs with an SPE, which is mostly attributable to the coordinative interactions of the ethylene oxide (EO) units in poly(ethylene oxide) (PEO) and poly(ethylene glycol) dimethyl ether (PEGDME) with metallic Li+ ions and Ti atoms. Such coordinative interactions induce 1) the capture of Li+ cations in the bulk of the polymer electrolyte, thereby reducing their effective concentration and 2) the facile formation of a PEO passivation layer on top of the TiO2 layer. Therefore, it was concluded that the high Voc in solid state DSCs employing a polymer electrolyte is attributable to the coordinative properties of the EO units in PEO and PEGDME in the SPE. [-]
Bibliographic citationKIM, Tea-Yon, et al. Origin of high open-circuit voltage in solid state dye-sensitized solar cells employing polymer electrolyte. Nano Energy, 2016, vol. 28, p. 455-461.
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