Yuko Takao scite author profile

A series of arylated dihydrofullerene derivatives were synthesized to elucidate the effective design of fullerene derivatives for enhancing the performance of organic photovoltaics. The LUMO energy of the fullerenes was estimated by the first reduction potential and theoretical calculations. The results showed that the methoxy groups substituted at spatial proximity to the fullerene core offered significant stabilization of the LUMO level. The stabilizing effect of the directly arylated fullerenes is more significant than that of conventional methanofullerenes. The theoretical investigation was performed with regard to the electronic interaction between the methoxy and fullerene moieties.

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Synthesis and properties of novel fluorinated subnaphthalocyanines for organic photovoltaic cells

Takao

Masuoka

Yamamoto

et al. 2014

Tetrahedron Letters

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Novel fluorinated subnaphthalocyanine derivatives were newly designed and synthesized as donor materials for low molecular organic photovoltaic cells using fullerene as an acceptor. They were designed to have the low-lying HOMO energy levels for improvement of open circuit voltage without any expense of short-circuit current density. The HOMO/LUMO energy levels of hexafluoro-, heptafluoro-, dodecafluoro-, tridecafluoro-and the parent subnaphthalocyanine estimated based on the photoelectron spectroscopy were-5.69/-3.93,-5.67/-3.90,-5.96/-4.19,-5.92/-4.11 and-5.30/-3.58 eV, respectively, showing that frontier orbital energy levels can be effectively tuned by fluorination.

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Synthesis and properties of novel methanofullerenes having ethylthienyl and/or n-pentyl group for photovoltaic cells

et al. 2010

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Controlling the Polarity of Fullerene Derivatives to Optimize Nanomorphology in Blend Films

Matsumoto

Iwai

Moriwaki

et al. 2016

ACS Appl. Mater. Interfaces

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Developing a design strategy to establish the compatibility of acceptor materials with donor materials is important for the rational development of organic solar cells. We synthesized 2,6-dimethoxyphenyl methanofullerene derivatives to realize an enhanced open-circuit voltage, and we investigated polarities and their effects on the film morphology of the active layer. The polarities of the synthesized fullerene derivatives were affected significantly by the presence of functional groups, such as methoxy, ether, and ester groups. Macro/nanoscopic morphological investigation and spectroscopic analysis of the blend films of the poly(3-hexylthiophene)(P3HT)/fullerene derivatives showed that a balanced polarity between materials results in the formation of optimized nanomorphology without grains and robust phase separation. Measurements of the device performance of the photovoltaic cells composed of P3HT and the fullerene derivatives confirmed the same tendency as that shown in the morphological analysis. This finding enables us to obtain an improved power conversion efficiency because of the enhanced open circuit voltage derived from the fullerene derivatives.

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Nanoscopic Combination of Edge and Flat Planes in the Active Site for Oxygen Reduction and Evolution

Maruyama

Fukuhara

et al. 2019

Eur J Inorg Chem

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An iron‐containing carbonaceous flat plane was enriched with edges by substrate fine etching and metal oxide loading, resulting in substantial enhancement of the catalytic activity for the oxygen reduction and evolution, which was fundamentally shown using the highly oriented pyrolytic graphite basal plane as the substrate. The evolution close to the standard electrode potential was elucidated by a mechanism involving the nanoscopic edge‐flat plane combination.

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Yuko Takao

Design of Fullerene Derivatives for Stabilizing LUMO Energy using Donor Groups Placed in Spatial Proximity to the C₆₀ Cage

Synthesis and properties of novel fluorinated subnaphthalocyanines for organic photovoltaic cells

Synthesis and properties of novel methanofullerenes having ethylthienyl and/or n-pentyl group for photovoltaic cells

Controlling the Polarity of Fullerene Derivatives to Optimize Nanomorphology in Blend Films

Nanoscopic Combination of Edge and Flat Planes in the Active Site for Oxygen Reduction and Evolution

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Yuko Takao

Design of Fullerene Derivatives for Stabilizing LUMO Energy using Donor Groups Placed in Spatial Proximity to the C60 Cage

Synthesis and properties of novel fluorinated subnaphthalocyanines for organic photovoltaic cells

Synthesis and properties of novel methanofullerenes having ethylthienyl and/or n-pentyl group for photovoltaic cells

Controlling the Polarity of Fullerene Derivatives to Optimize Nanomorphology in Blend Films

Nanoscopic Combination of Edge and Flat Planes in the Active Site for Oxygen Reduction and Evolution

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Product

Resources

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Design of Fullerene Derivatives for Stabilizing LUMO Energy using Donor Groups Placed in Spatial Proximity to the C₆₀ Cage