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Exploiting heteroaggregation to quantify the contact angle of charged colloids at interfaces

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dc.contributor.author Sabapathy, M.
dc.contributor.author Zubair Md, K.
dc.contributor.author Kumar, H.
dc.contributor.author Ramamirtham, S.
dc.contributor.author Mani, E.
dc.contributor.author Basavaraj, M. G.
dc.date.accessioned 2022-09-05T20:06:45Z
dc.date.available 2022-09-05T20:06:45Z
dc.date.issued 2022-09-05
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/3959
dc.description.abstract We exploit the aggregation between oppositely charged particles to visualize and quantify the equilibrium position of charged colloidal particles at the fluid–water interface. A dispersion of commercially available charge-stabilized nanoparticles was used as the aqueous phase to create oil–water and air–water interfaces. The colloidal particles whose charge was opposite that of the nanoparticles in the aqueous phase were deposited at the chosen fluid–water interface. Heteroaggregation, i.e., aggregation between oppositely charged particles, leads to the deposition of nanoparticles onto the larger particle located at the interface; however, this only occurs on the surface of the particle in contact with the aqueous phase. This selective deposition of nanoparticles on the surfaces of the particles exposed to water enables the distinct visualization of the circular three-phase contact line around the particles positioned at the fluid–water interface. Since the electrostatic association between the nanoparticles and the colloids at interfaces is strong, the nanoparticle assembly on the larger particles is preserved even after being transferred to solid substrates via dip-coating. This facilitates the easy visualization of the contact line by electron microscopy and the determination of the equilibrium contact angle of colloidal particles (θ) at the fluid–water interface. The suitability of the method is demonstrated by the measurement of the three-phase contact angle of positively and negatively charged polystyrene particles located at fluid–water interfaces by considering particles with sizes varying from 220 nm to 8.71 μm. The study highlights the effect of the size ratio between the nanoparticles in the aqueous phase and the colloidal particles on the accuracy of the measurement of θ. en_US
dc.language.iso en_US en_US
dc.subject Colloidal particles en_US
dc.subject Contact angle en_US
dc.subject Deposition en_US
dc.subject Interfaces en_US
dc.subject Nanoparticles en_US
dc.title Exploiting heteroaggregation to quantify the contact angle of charged colloids at interfaces en_US
dc.type Article en_US


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