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  <Article>
    <Journal>
      <PublisherName>The Chemical Society of Japan</PublisherName>
      <JournalTitle>Acta Medica Okayama</JournalTitle>
      <Issn>1348-0634</Issn>
      <Volume>85</Volume>
      <Issue>9</Issue>
      <PubDate PubStatus="ppublish">
        <Year>2012</Year>
        <Month/>
      </PubDate>
    </Journal>
    <ArticleTitle>Electroconductive π-Junction Au Nanoparticles</ArticleTitle>
    <FirstPage LZero="delete">957</FirstPage>
    <LastPage>961</LastPage>
    <Language>EN</Language>
    <AuthorList>
      <Author>
        <FirstName EmptyYN="N">Masayuki</FirstName>
        <LastName>Kanehara</LastName>
        <Affiliation/>
      </Author>
      <Author>
        <FirstName EmptyYN="N">Jun</FirstName>
        <LastName>Takeya</LastName>
        <Affiliation/>
      </Author>
      <Author>
        <FirstName EmptyYN="N">Takafumi</FirstName>
        <LastName>Uemura</LastName>
        <Affiliation/>
      </Author>
      <Author>
        <FirstName EmptyYN="N">Hideyuki</FirstName>
        <LastName>Murata</LastName>
        <Affiliation/>
      </Author>
      <Author>
        <FirstName EmptyYN="N">Kazuo</FirstName>
        <LastName>Takimiya</LastName>
        <Affiliation/>
      </Author>
      <Author>
        <FirstName EmptyYN="N">Hikaru</FirstName>
        <LastName>Sekine</LastName>
        <Affiliation/>
      </Author>
      <Author>
        <FirstName EmptyYN="N">Toshiharu</FirstName>
        <LastName>Teranishi</LastName>
        <Affiliation/>
      </Author>
    </AuthorList>
    <PublicationType/>
    <ArticleIdList>
      <ArticleId IdType="doi"/>
    </ArticleIdList>
    <Abstract>The fabrication of printed electronic circuits using solution-based electroconductive materials at low temperature is essential for the realization of modern printed electronics including transistors, photovoltaic cells, and light-emitting devices. Despite the progress in the field of semiconductor solution materials, reliable electrodes are always fabricated by a vacuum deposition process resulting in only partially solution-processed devices. In this paper, we show that planar phthalocyanine-conjugated Au nanoparticles (NPs) significantly improve the interparticle-carrier-transport properties. The deposition of a solution of the Au NPs under ambient conditions results in an electroconductive metallic thin film without further post-treatment. Maximum conductivity reaches &gt;6600 S cm−1 and the conductivity remains unchanged for at least 1 year under ambient conditions. The all-solution-processed organic field-effect transistor (OFET) fabricated under ambient conditions exhibits mobility values as high as 2 cm2 V−1 s−1, the value of which is comparable to OFET devices having vacuum-deposited Au electrodes.</Abstract>
    <CoiStatement>No potential conflict of interest relevant to this article was reported.</CoiStatement>
    <ObjectList/>
    <ReferenceList/>
  </Article>
</ArticleSet>
