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dc.contributor.authorHarikrishnan, A. R.-
dc.contributor.authorDas, S. K.-
dc.contributor.authorAgnihotri, P. K.-
dc.contributor.authorDhar, P.-
dc.date.accessioned2021-10-09T05:01:12Z-
dc.date.available2021-10-09T05:01:12Z-
dc.date.issued2021-10-09-
dc.identifier.urihttp://localhost:8080/xmlui/handle/123456789/2943-
dc.description.abstractWe segregate and report experimentally for the first time the polar and dispersive interfacial energy components of complex nanocolloidal dispersions. In the present study, we introduce a novel inverse protocol for the classical Owens Wendt method to determine the constitutive polar and dispersive elements of surface tension in such multicomponent fluidic systems. The effect of nanoparticles alone and aqueous surfactants alone are studied independently to understand the role of the concentration of the dispersed phase in modulating the constitutive elements of surface energy in fluids. Surfactants are capable of altering the polar component, and the combined particle and surfactant nanodispersions are shown to be effective in modulating the polar and dispersive components of surface tension depending on the relative particle and surfactant concentrations as well as the morphological and electrostatic nature of the dispersed phases. We observe that the combined surfactant and particle colloid exhibits a similar behavior to that of the particle only case; however, the amount of modulation of the polar and dispersive constituents is found to be different from the particle alone case which brings to the forefront the mechanisms through which surfactants modulate interfacial energies in complex fluids. Accordingly, we are able to show that the observations can be merged into a form of quasi-universal trend in the trends of polar and dispersive components in spite of the non-universal character in the wetting behavior of the fluids. We analyze the different factors affecting the polar and dispersive interactions in such complex colloids, and the physics behind such complex interactions has been explained by appealing to the classical dispersion theories by London, Debye, and Keesom as well as by Derjaguin-LandauVerwey-Overbeek theory. The findings shed light on the nature of wetting behavior of such complex fluids and help in predicting the wettability and the degree of interfacial interaction with a substrate in such multicomponent nanocolloidal systems.en_US
dc.language.isoen_USen_US
dc.titleParticle and surfactant interactions effected polar and dispersive components of interfacial energy in nanocolloidsen_US
dc.typeArticleen_US
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