Your search keyword '"Reddy, Akepati Bhaskar"' showing total 3 results

1. Electro-responsivity of ionic liquid boundary layers in a polar solvent revealed by neutron reflectance.

Author

Pilkington, Georgia A., Harris, Kathryn, Bergendal, Erik, Reddy, Akepati Bhaskar, Palsson, Gunnar K., Vorobiev, Alexei, Antzutkin, Oleg. N., Glavatskih, Sergei, and Rutland, Mark W.

Subjects

IONIC liquids, BOUNDARY layer (Aerodynamics), NEUTRON reflectivity, POLAR solvent analysis, MEASUREMENT of viscosity, ION scattering

Abstract

Using neutron reflectivity, the electro-responsive structuring of the non-halogenated ionic liquid (IL) trihexyl(tetradecyl)phosphonium-bis(mandelato)borate, [P6,6,6,14][BMB], has been studied at a gold electrode surface in a polar solvent. For a 20% w/w IL mixture, contrast matched to the gold surface, distinct Kiessig fringes were observed for all potentials studied, indicative of a boundary layer of different composition to that of the bulk IL-solvent mixture. With applied potential, the amplitudes of the fringes from the gold-boundary layer interface varied systematically. These changes are attributable to the differing ratios of cations and anions in the boundary layer, leading to a greater or diminished contrast with the gold electrode, depending on the individual ion scattering length densities. Such electro-responsive changes were also evident in the reflectivities measured for the pure IL and a less concentrated (5% w/w) IL-solvent mixture at the same applied potentials, but gave rise to less pronounced changes. These measurements, therefore, demonstrate the enhanced sensitivity achieved by contrast matching the bulk solution and that the structure of the IL boundary layers formed in mixtures is strongly influenced by the bulk concentration. Together these results represent an important step in characterising IL boundary layers in IL-solvent mixtures and provide clear evidence of electro-responsive structuring of IL ions in their solutions with applied potential. [ABSTRACT FROM AUTHOR]

Published

2018

2. Tribotronic control of an ionic boundary layer in operando extends the limits of lubrication.

Author

Reddy, Akepati Bhaskar, Pilkington, Georgia A., Rutland, Mark W., and Glavatskih, Sergei

Subjects

BOUNDARY layer control, OCEAN wave power, OFFSHORE structures, NEUTRON reflectivity, ELECTRIC potential, ROLLING (Metalwork), ELASTOHYDRODYNAMIC lubrication, LUBRICATION & lubricants

Abstract

The effect of electric potential on the lubrication of a non-halogenated phosphonium orthoborate ionic liquid used as an additive in a biodegradable oil was studied. An in-house tribotronic system was built around an instrument designed to measure lubricant film thickness between a rolling steel ball and a rotating silica-coated glass disc. The application of an electric field between the steel ball and a set of customized counter-electrodes clearly induced changes in the thickness of the lubricant film: a marked decrease at negative potentials and an increase at positive potentials. Complementary neutron reflectivity studies demonstrated the intrinsic electroresponsivity of the adsorbate: this was performed on a gold-coated silicon block and made possible in the same lubricant system by deuterating the oil. The results indicate that the anions, acting as anchors for the adsorbed film on the steel surface, are instrumental in the formation of thick and robust lubricating ionic boundary films. The application of a high positive potential, outside the electrochemical window, resulted in an enormous boost to film thickness, implicating the formation of ionic multi-layers and demonstrating the plausibility of remote control of failing contacts in inaccessible machinery, such as offshore wind and wave power installations. [ABSTRACT FROM AUTHOR]

Published

2022

3. Electroresponsive structuring and friction of a non-halogenated ionic liquid in a polar solvent: effect of concentration.

Author

Pilkington, Georgia A., Oleshkevych, Anna, Pedraz, Patricia, Watanabe, Seiya, Radiom, Milad, Reddy, Akepati Bhaskar, Vorobiev, Alexei, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

Neutron reflectivity (NR) measurements have been employed to study the interfacial structuring and composition of electroresponsive boundary layers formed by an ionic liquid (IL) lubricant at an electrified gold interface when dispersed in a polar solvent. The results reveal that both the composition and extent of the IL boundary layers intricately depend on the bulk IL concentration and the applied surface potential. At the lowest concentration (5% w/w), a preferential adsorption of the IL cation at the gold electrode is observed, which hinders the ability to electro-induce changes in the boundary layers. In contrast, at higher IL bulk concentrations (10 and 20% w/w), the NR results reveal a significantly larger concentration of the IL ions at the gold interface that exhibit significantly greater electroresponsivity, with clear changes in the layer composition and layer thickness observed for different potentials. In complementary atomic force microscopy (AFM) measurements on an electrified gold surface, such IL boundary layers are demonstrated to provide excellent friction reduction and electroactive friction (known as tribotronics). In agreement with the NR results obtained, clear concentration effects are also observed. Together such results provide valuable molecular insight into the electroactive structuring of ILs in solvent mixtures, as well as provide mechanistic understanding of their tribotronic behaviours. [ABSTRACT FROM AUTHOR]

Published

2020