Your search keyword '"Potts, Sarah-Jane"' showing total 2 results

1. The influence of carbon morphologies and concentrations on the rheology and electrical performance of screen-printed carbon pastes.

Author

Potts, Sarah-Jane, Korochkina, Tatyana, Holder, Alex, Jewell, Eifion, Phillips, Chris, and Claypole, Tim

Subjects

*RHEOLOGY, *PRINTED electronics, *CARBON-black, *CARBON, *PRINTMAKING, *PRINT materials

Abstract

Screen-printing inks containing various morphologies of carbon are used in the production of a variety of printed electronics applications. Particle morphology influences the rheology of the ink which will affect the deposition and therefore the electrical performance of a printed component. To assess the effect of both carbon morphology and concentration on print topography and conductivity, screen printable carbon inks with differing loading concentrations of graphite, carbon black and graphite nanoplatelets (GNPs) were formulated, printed and characterised, with rheological and novel print visualisation techniques used to elucidate the mechanisms responsible. Carbon morphology had significant effects on the packing of particles. The smaller carbon black particles had more interparticle interactions leading to better conductivities, but also higher ink viscosities and elasticities than the other morphologies. Increases in carbon concentration led to increases in film thickness and roughness for all morphologies. However, beyond a critical point further increases in carbon concentration led to agglomerations of particles, mesh marking and increases in surface roughness, preventing further improvements in the print conductivity. The optimal loading concentrations were identifiable using a custom-made screen-printing apparatus used with high speed imaging for all morphologies. Notable increases in filamentation during ink separation were found to occur with further increases in carbon concentration beyond the optimum. As this point could not be identified using shear rheology alone, this method combined with shear rheology could be used to optimise the carbon concentration of screen-printing inks, preventing the use of excess material which has no benefit on print quality and conductivity. [ABSTRACT FROM AUTHOR]

Published

2022

2. The effect of graphite and carbon black ratios on conductive ink performance.

Author

Phillips, Chris, Al-Ahmadi, Awadh, Potts, Sarah-Jane, Claypole, Tim, and Deganello, Davide

Subjects

CARBON-black, GRAPHITE, ENERGY storage, ELECTROCHEMICAL sensors, ENERGY harvesting, ELECTRIC properties of metals

Abstract

Conductive inks based on graphite and carbon black are used in a host of applications including energy storage, energy harvesting, electrochemical sensors and printed heaters. This requires accurate control of electrical properties tailored to the application; ink formulation is a fundamental element of this. Data on how formulation relates to properties have tended to apply to only single types of conductor at any time, with data on mixed types of carbon only empirical thus far. Therefore, screen printable carbon inks with differing graphite, carbon black and vinyl polymer content were formulated and printed to establish the effect on rheology, deposition and conductivity. The study found that at a higher total carbon loading ink of 29.4% by mass, optimal conductivity (0.029 Ω cm) was achieved at a graphite to carbon black ratio of 2.6 to 1. For a lower total carbon loading (21.7 mass %), this ratio was reduced to 1.8 to 1. Formulation affected viscosity and hence ink transfer and also surface roughness due to retention of features from the screen printing mesh and the inherent roughness of the carbon components, as well as the ability of features to be reproduced consistently. [ABSTRACT FROM AUTHOR]

Published

2017