Microfluidization of graphite and formulation of graphene-based conductive inks

A. C. Ferrari; D. N. Johnstone; F. Tomarchio; F. Torrisi; I. Goykhman; L. Lombardi; N. Decorde; N. M. Pugno; P. A. Midgley; P. G. Karagiannidis

arxiv: 1611.04467 · v1 · pith:TD4Y6GYFnew · submitted 2016-11-11 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall

Microfluidization of graphite and formulation of graphene-based conductive inks

P. G. Karagiannidis , S. A. Hodge , L. Lombardi , F. Tomarchio , N. Decorde , S. Milana , I. Goykhman , Y. Su

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S. V. Mesite D. N. Johnstone R. K. Leary P. A. Midgley N. M. Pugno F. Torrisi A. C. Ferrari

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classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hall

keywords conductiveinksexfoliationgraphene-basedgraphiteaqueousareabelow

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We report the exfoliation of graphite in aqueous solutions under high shear rate [$\sim10^8s^{-1}$] turbulent flow conditions, with a 100\% exfoliation yield. The material is stabilized without centrifugation at concentrations up to 100 g/L using carboxymethylcellulose sodium salt to formulate conductive printable inks. The sheet resistance of blade coated films is below$\sim2\Omega/\square$. This is a simple and scalable production route for graphene-based conductive inks for large area printing in flexible electronics.

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Microfluidization of graphite and formulation of graphene-based conductive inks

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