Nanostructural characterization and catalytic analysis of hybridized platinumphthalocyanine nanocomposites. Kaneko, K., Furuya, K., Hungria, A., Hernandez-Garrido, J., Midgley, P., Onodera, T., Kasai, H., Yaguchi, Y., Oikawa, H., Nomura, Y., Harada, H., Ishihara, T., & Baba, N. Journal of Electron Microscopy, 58(5):289-294, 2009. cited By 4![Nanostructural characterization and catalytic analysis of hybridized platinumphthalocyanine nanocomposites [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex Organic crystals, such as phthalocyanine nanocrystal, were successfully hybridized with Pt nanoparticles using a nanohybridization technique. The presence of highly dispersed Pt nanoparticles on the surface of phthalocyanine was confirmed by the combination of transmission electron microscopy and three-dimensional electron tomography. Catalytic activities of hybridized samples with different degrees of dispersions were also examined as oxygen reduction reactivity (ORR) with a linear potential sweep method. It was found that oxygen reduction activity increased with increasing Pt dispersion, and reasonably high ORR was observed on Pt-dispersed phthalocyanine nanocrystal even at 2 wt Pt loading.
@article{ Kaneko2009289,
author = {Kaneko, K. and Furuya, K. and Hungria, A.B. and Hernandez-Garrido, J.-C. and Midgley, P.A. and Onodera, T. and Kasai, H. and Yaguchi, Y. and Oikawa, H. and Nomura, Y. and Harada, H. and Ishihara, T. and Baba, N.},
title = {Nanostructural characterization and catalytic analysis of hybridized platinumphthalocyanine nanocomposites},
journal = {Journal of Electron Microscopy},
year = {2009},
volume = {58},
number = {5},
pages = {289-294},
doi = {10.1093/jmicro/dfp027},
note = {cited By 4},
url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-70349473158&partnerID=40&md5=04a10a982e300a9065655b582fee2e9d},
abstract = {Organic crystals, such as phthalocyanine nanocrystal, were successfully hybridized with Pt nanoparticles using a nanohybridization technique. The presence of highly dispersed Pt nanoparticles on the surface of phthalocyanine was confirmed by the combination of transmission electron microscopy and three-dimensional electron tomography. Catalytic activities of hybridized samples with different degrees of dispersions were also examined as oxygen reduction reactivity (ORR) with a linear potential sweep method. It was found that oxygen reduction activity increased with increasing Pt dispersion, and reasonably high ORR was observed on Pt-dispersed phthalocyanine nanocrystal even at 2 wt Pt loading.},
author_keywords = {Electron tomography; Nanocomposite; Organic crystal},
document_type = {Article},
source = {Scopus}
}
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