Copper nanoparticles decorated graphene nanoplatelets and composites with PEDOT:PSS A. V. Kukhta, A. G. Paddubskaya, P. P. Kuzhir [et al.]
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ArticleSubject(s): графеновые нанопластины | наночастицы меди | композитные пленки | электропроводностьGenre/Form: статьи в журналах Online resources: Click here to access online
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Synthetic metals Vol. 222, Part B. P. 192-197Abstract: A facile and reliable synthesis route to Cu-graphene nanoplatelets (GNP) hybrid films has been developed. Cu nanoparticles of 13.7 ± 3.4 nm mean size were attached to few-layer graphene sheets. The obtained composite has good film forming properties and resistance of 380 Ω as compared to pure GNP, forming unstable and weakly conductive films. Introducing the GNP-CuNP nanofiller into the conducting polymer PEDOT:PSS leads to a more pronounced improvement of the conductivity of the latter compared to the case of using pure GNP. A simple way to produce a stable and highly conducting composite for manifold printable electronics applications is demonstrated.
Библиогр.: 42 назв.
A facile and reliable synthesis route to Cu-graphene nanoplatelets (GNP) hybrid films has been developed. Cu nanoparticles of 13.7 ± 3.4 nm mean size were attached to few-layer graphene sheets. The obtained composite has good film forming properties and resistance of 380 Ω as compared to pure GNP, forming unstable and weakly conductive films. Introducing the GNP-CuNP nanofiller into the conducting polymer PEDOT:PSS leads to a more pronounced improvement of the conductivity of the latter compared to the case of using pure GNP. A simple way to produce a stable and highly conducting composite for manifold printable electronics applications is demonstrated.
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