Enhanced Charge Separation Efficiency in Pyridine‐Anchored Phthalocyanine‐Sensitized Solar Cells by Linker Elongation |
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| Authors: | Takuro Ikeuchi Dr. Saurabh Agrawal Dr. Masayuki Ezoe Prof. Dr. Shogo Mori Prof. Dr. Mutsumi Kimura |
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| Affiliation: | 1. Division of Chemistry and Materials, Faculty of Textile Science and Technology, Shinshu University, Ueda, Japan;2. Yamamoto Chemicals Inc., Yao, Japan;3. (+81)?268‐21‐5499 |
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| Abstract: | A series of zinc phthalocyanine sensitizers ( PcS22 – 24 ) having a pyridine anchoring group are designed and synthesized to investigate the structural dependence on performance in dye‐sensitized solar cells. The pyridine‐anchor zinc phthalocyanine sensitizer PcS23 shows 79 % incident‐photon to current‐conversion efficiency (IPCE) and 6.1 % energy conversion efficiency, which are comparable with similar phthalocyanine dyes having a carboxylic acid anchoring group. Based on DFT calculations, the high IPCE is attributed with the mixture of an excited‐state molecular orbital of the sensitizer and the orbitals of TiO2. Between pyridine and carboxylic acid anchor dyes, opposite trends are observed in the linker‐length dependence of the IPCE. The red‐absorbing PcS23 is applied for co‐sensitization with a carboxyl‐anchor organic dye D131 that has a complementary spectral response. The site‐selective adsorption of PcS23 and D131 on the TiO2 surface results in a panchromatic photocurrent response for the whole visible‐light region of sun light. |
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| Keywords: | dyes/pigments energy conversion phthalocyanines solar cells TiO2 |
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