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29 results on '"Pilkington, Georgia A."'

4. Elastic deformation during dynamic force measurements in viscous fluids

Author

Wang, Yumo, Pilkington, Georgia, Dhong, Charles, and Frechette, Joelle

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Understanding and harnessing the coupling between lubrication pressure and elasticity provides materials design strategies for applications such as adhesives, coatings, microsensors, and biomaterials. Elastic deformation of compliant solids caused by viscous forces can also occur during dynamic force measurements in instruments such as the surface forces apparatus (SFA) or the atomic force microscope (AFM). We briefly review hydrodynamic interactions in the presence of soft, deformable interfaces in the lubrication limit. More specifically, we consider the scenario of two surfaces approaching each other in a viscous fluid where one or both surfaces is deformable, which is also relevant to many force measurement systems. In this article the basic theoretical background of the elastohydrodynamic problem is detailed, followed by a discussion of experimental validation and considerations, especially for the role of elastic deformation on surface forces measurements. Finally, current challenges to our understanding of soft hydrodynamic interactions, such as the consideration of substrate layering, poroelasticity, viscoelasticity, surface heterogeneity, as well as their implications are discussed.

Published
2018
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6. Disordered mesoporous silica particles: an emerging platform to deliver proteins to the lungs.

Author

Rocío Hernández, Aura, Bogdanova, Ekaterina, Campos Pacheco, Jesus E., Kocherbitov, Vitaly, Ekström, Mikael, Pilkington, Georgia, and Valetti, Sabrina

Subjects
CARRIER proteins, PARTICULATE matter, LYSOZYMES, DRUG carriers, PROTEIN models, LUNGS
Abstract

Pulmonary delivery and formulation of biologics are among the more complex and growing scientific topics in drug delivery. We herein developed a dry powder formulation using disordered mesoporous silica particles (MSP) as the sole excipient and lysozyme, the most abundant antimicrobial proteins in the airways, as model protein. The MSP had the optimal size for lung deposition (2.43 ± 0.13 µm). A maximum lysozyme loading capacity (0.35 mg/mg) was achieved in 150 mM PBS, which was seven times greater than that in water. After washing and freeze-drying, we obtained a dry powder consisting of spherical, non-aggregated particles, free from residual buffer, or unabsorbed lysozyme. The presence of lysozyme was confirmed by TGA and FT-IR, while N2 adsorption/desorption and SAXS analysis indicate that the protein is confined within the internal mesoporous structure. The dry powder exhibited excellent aerodynamic performance (fine particle fraction <5 µm of 70.32%). Lysozyme was released in simulated lung fluid in a sustained kinetics and maintaining high enzymatic activity (71–91%), whereas LYS-MSP were shown to degrade into aggregated nanoparticulate microstructures, reaching almost complete dissolution (93%) within 24 h. MSPs were nontoxic to in vitro lung epithelium. The study demonstrates disordered MSP as viable carriers to successfully deliver protein to the lungs, with high deposition and retained activity. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Anion Architecture Controls Structure and Electroresponsivity of Anhalogenous Ionic Liquids in a Sustainable Fluid

Author

Li, Sichao, Hammond, Oliver S., Nelson, Andrew, de Campo, Liliana, Moir, Michael, Recsei, Carl, Shimpi, Manishkumar R., Glavatskih, Sergei, Pilkington, Georgia A., Mudring, Anja-Verena, Rutland, Mark W., Li, Sichao, Hammond, Oliver S., Nelson, Andrew, de Campo, Liliana, Moir, Michael, Recsei, Carl, Shimpi, Manishkumar R., Glavatskih, Sergei, Pilkington, Georgia A., Mudring, Anja-Verena, and Rutland, Mark W.

Abstract

Three nonhalogenated ionic liquids (ILs) dissolved in 2-ethylhexyl laurate (2-EHL), a biodegradable oil, are investigated in terms of their bulk and electro-interfacial nanoscale structures using small-angle neutron scattering (SANS) and neutron reflectivity (NR). The ILs share the same trihexyl(tetradecyl)phosphonium ([P6,6,6,14]+) cation paired with different anions, bis(mandelato)borate ([BMB]−), bis(oxalato)borate ([BOB]−), and bis(salicylato)borate ([BScB]−). SANS shows a high aspect ratio tubular self-assembly structure characterized by an IL core of alternating cations and anions with a 2-EHL-rich shell or corona in the bulk, the geometry of which depends upon the anion structure and concentration. NR also reveals a solvent-rich interfacial corona layer. Their electro-responsive behavior, pertaining to the structuring and composition of the interfacial layers, is also influenced by the anion identity. [P6,6,6,14][BOB] exhibits distinct electroresponsiveness to applied potentials, suggesting an ion exchange behavior from cation-dominated to anion-rich. Conversely, [P6,6,6,14][BMB] and [P6,6,6,14][BScB] demonstrate minimal electroresponses across all studied potentials, related to their different dissociative and diffusive behavior. A mixed system is dominated by the least soluble IL but exhibits an increase in disorder. This work reveals the subtlety of anion architecture in tuning bulk and electro-interfacial properties, offering valuable molecular insights for deploying nonhalogenated ILs as additives in biodegradable lubricants and supercapacitors., We acknowledge the support of the Australian Centre for Neutron Scattering, ANSTO, and the Australian Government through the National Collaborative Research Infrastructure Strategy (NCRIS), in using the neutron research infrastructure used in this work via ACNS proposal P13958 on the BILBY SANS and proposal P8264 on the PLATYPUS NR instrument. We gratefully acknowledge Institut Laue-Langevin (ILL), France, for access to SuperADAM (doi:10.5291/ILL-DATA.9-13-1006). We acknowledge the support of the Australian Government in provision of access to ANSTO's National Deuteration Facility which is partly funded through NCRIS. Prof. Oleg N. Antzutkin (Luleå University of Technology) is gratefully acknowledged for providing the ILs. The authors thank Prof. Thomas Norrby (KTH Royal Institute of Technology and Nynas AB) for insightful discussions on 2-EHL properties and applications. The authors would also like to thank Dr. Alexei Vorobiev for his support during the SuperADAM beamtime and Dr. Brando Adranno, Dr. Olivier Renier, Anthony Boudier, and Filip Mehler for their experimental support. Daniel Morris is thanked for valuable assistance performing SANS experiments. SL and GP also thank Dr. Adrian Iovan (KTH Nanolab) for his help with the preparation of the gold electrode via the electron beam evaporator. The Knut and Alice Wallenberg Foundation (Project no. KAW2012.0078), the Swedish Research Council, VR (Project no. 2017-04080), the Swedish Foundation for Strategic Research (Project no. EM16-0013, "REFIT"), Vinnova (Project no. 2020-03801), and Villum Foundation (Villum Investigator awards to AVM) are acknowledged for their financial support. We also thank the Danish Agency for Science, Technology, and Innovation for funding the instrument center DanScatt (Grant no. 2021 7129-00006B).

Published
2024
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9. Interactions in dendrimer nanofluids

Author

Pilkington, Georgia A.

Subjects
620.1
Abstract

Fluids containing nano-sized structures are being increasingly employed in modern technologies, ranging from lubrication fluids to drug delivery. However, despite their numerous applications, our fundamental understanding of the surface forces mediated by nanofluids is still relatively limited. In particular, due to their nanosize and related characteristics, the applicability of established surface force theories, such as the DLVO theory, remain unclear. With several tunable parameters such as the size, shape and surface chemistry, dendritic macromolecules (or dendrimers) offer a unique model nanofluid for investigating the effect of nanostructures on classic colloidal phenomena. Accordingly small-angle X-ray scattering (SAXS) and X-ray reflectivity (XRR) measurements have been performed to study the interactions between negatively charged poly(amidoamine) (PAMAM) dendrimers in the bulk and at the mica-water interface. In particular, how their interactions can be influenced by the presence of cationic surfactant dodecyl trimethyl ammonium bromide (DTAB) have been studied. Using a version of the surface force apparatus (SF A), the surface forces mediated by these dendrimer-surfactant mixtures under nano-confinement and shear have then also been directly measured. In further work the effect of the surface chemistry on the interactions in dendrimer nanofluids has been studied in two systems: i) as a comparison to the above system, the interactions between positively charged dendrimers with an anionic surfactant have been characterised both in the bulk and at the mica interface using SAXS and XRR, and ii) the interactions between three different surface chemistries of P AMAM dendrimers in an ionic surfactant mesophase have investigated using SAXS. Overall, the results presented demonstrate the tunability of inter-dendrimer interactions via their intramolecular architecture, which in turn may be harnessed to control and tailor the physical properties of dendrimer nanofluids. Such interactions bear fundamental importance to the application of dendrimers, as well as contribute to a better understanding of the surface forces mediated nanofluids.

Published
2015

12. Grazing incidence neutron scattering for the study of solid–liquid interfaces

Author

Wolff, Max, Frielinghaus, Henrich, Cárdenas, Marité, Gonzalez, Juan Fransisco, Theis-Bröhl, Katharina, Softwedel, Olaf, von Klitzing, Regine, Pilkington, Georgia, Rutland, Mark W., Dahint, Reiner, Gutfreund, Philipp, Wolff, Max, Frielinghaus, Henrich, Cárdenas, Marité, Gonzalez, Juan Fransisco, Theis-Bröhl, Katharina, Softwedel, Olaf, von Klitzing, Regine, Pilkington, Georgia, Rutland, Mark W., Dahint, Reiner, and Gutfreund, Philipp

Abstract

Neutrons are characterized by a low absorption in many engineering materials. At the same time the scattering cross section of light elements, such as hydrogen and deuterium, may be large. These properties make neutron scattering experiments performed under grazing incidence geometry an excellent tool for the study of solid–liquid interfaces. In this review we describe the basic concepts of neutron reflection and grazing incidence scattering experiments as well as experimental procedures and sample cells. The full power of the method is exemplified on a range of science areas, including polymers, bio- and ionic liquid lubricants, electrolytes as well as bio-membranes or magnetic liquids., QC 20240521

Published
2023
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14. Micro- to Nano- and from Surface to Bulk : Influence of Halogen-Free Ionic Liquid Architecture and Dissociation on Green Oil Lubricity

Author

Reddy, Akepati Bhaskar, Munavirov, Bulat, Pilkington, Georgia, Calderon Salmeron, Gabriel, Rutland, Mark W., Glavatskih, Sergei, Reddy, Akepati Bhaskar, Munavirov, Bulat, Pilkington, Georgia, Calderon Salmeron, Gabriel, Rutland, Mark W., and Glavatskih, Sergei

Abstract

Four nonhalogenated ionic liquids (ILs) based on the same phosphonium cation are investigated in terms of the anion suitability for enhancing the lubricity of a biodegradable oil. For all test conditions, typical for industrial machine components, the lubrication is shown to be governed by nonsacrificial films formed by the physisorption of ionic species on the tribo-surfaces. The anionic structure appears to have an important role in the formation of friction modifying films. The orthoborate ILs exhibit the formation of robust ionic boundary films, resulting in reduced friction and better wear protection. On the contrary, the surface adsorption of phosphinate and phosphate ILs appears to antagonistically disrupt the intrinsic lubrication properties of the biodegradable oil, resulting in high friction and wear. Through additional investigations, it is postulated that the higher dissociation of orthoborate ILs in the biodegradable oil allows the formation of hierarchical and electrostatically overscreened layer structures with long-range order, whereas the ILs with phosphate and phosphinate anions exhibit low dissociation in biodegradable oil, possibly due to the ion pairs being surrounded by a hydrocarbon halo, which presumably results in weak adsorption to form a mixed interfacial layer with no long-range order., QC 20211108

Published
2021
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15. Tuneable interfacial surfactant aggregates mimic lyotropic phases and facilitate large scale nanopatterning

Author

Bergendal, Erik, Gutfreund, Philipp, Pilkington, Georgia A., Campbell, Richard A., Mueller-Buschbaum, Peter, Holt, Stephen A., Rutland, Mark W., Bergendal, Erik, Gutfreund, Philipp, Pilkington, Georgia A., Campbell, Richard A., Mueller-Buschbaum, Peter, Holt, Stephen A., and Rutland, Mark W.

Abstract

It is shown that the air-liquid interface can be made to display the same rich curvature phenomena as common lyotropic liquid crystal systems. Through mixing an insoluble, naturally occurring, branched fatty acid, with an unbranched fatty acid of the same length, systematic variation in the packing constraints at the air-water interface could be obtained. The combination of atomic force microscopy and neutron reflectometry is used to demonstrate that the water surface exhibits significant tuneable topography. By systematic variation of the two fatty acid proportions, ordered arrays of monodisperse spherical caps, cylindrical sections, and a mesh phase are all observed, as well as the expected lamellar structure. The tuneable deformability of the air-water interface permits this hitherto unexplored topological diversity, which is analogous to the phase elaboration displayed by amphiphiles in solution. It offers a wealth of novel possibilities for the tailoring of nanostructure., QC 20210510

Published
2021
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16. 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, Rutland, Mark W., 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.

Published
2020
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17. Effect of water on the electroresponsive structuring and friction in dilute and concentrated ionic liquid lubricant mixtures

Author

Pilkington, Georgia, Welbourn, Rebecca, Oleshkevych, Anna, Watanabe, Seiya, Pedraz, Patricia, Radiom, Milad, Glavatskih, Sergei, Rutland, Mark W., Pilkington, Georgia, Welbourn, Rebecca, Oleshkevych, Anna, Watanabe, Seiya, Pedraz, Patricia, Radiom, Milad, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

The effect of water on the electroactive structuring of a tribologically relevant ionic liquid (IL) when dispersed in a polar solvent has been investigated at a gold electrode interface using neutron reflectivity (NR). For all solutions studied, the addition of small amounts of water led to clear changes in electroactive structuring of the IL at the electrode interface, which was largely determined by the bulk IL concentration. At a dilute IL concentration, the presence of water gave rise to a swollen interfacial structuring, which exhibited a greater degree of electroresponsivity with applied potential compared to an equivalent dry solution. Conversely, for a concentrated IL solution, the presence of water led to an overall thinning of the interfacial region and a crowding-like structuring, within which the composition of the inner layer IL layers varied systematically with applied potential. Complementary nanotribotronic atomic force microscopy (AFM) measurements performed for the same IL concentration, in dry and ambient conditions, show that the presence of water reduces the lubricity of the IL boundary layers. However, consistent with the observed changes in the IL layers observed by NR, reversible and systematic control of the friction coefficient with applied potential was still achievable. Combined, these measurements provide valuable insight into the implications of water on the interfacial properties of ILs at electrified interfaces, which inevitably will determine their applicability in tribotronic and electrochemical contexts., QC 20210127

Published
2020
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18. Interfacial structuring of non-halogenated imidazolium ionic liquids at charged surfaces : effect of alkyl chain length

Author

Watanabe, Seiya, Pilkington, Georgia, Oleshkevych, Anna, Pedraz, Patricia, Radiom, Milad, Welbourn, Rebecca, Glavatskih, Sergei, Rutland, Mark W., Watanabe, Seiya, Pilkington, Georgia, Oleshkevych, Anna, Pedraz, Patricia, Radiom, Milad, Welbourn, Rebecca, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

Control of the interfacial structures of ionic liquids (ILs) at charged interfaces is important to many of their applications, including in energy storage solutions, sensors and advanced lubrication technologies utilising electric fields. In the case of the latter, there is an increasing demand for the study of non-halogenated ILs, as many fluorinated anions have been found to produce corrosive and toxic halides under tribological conditions. Here, the interfacial structuring of a series of four imidazolium ILs ([C(n)C(1)Im]) of varying alkyl chain lengths (n = 5, 6, 7, 10), with a non-halogenated borate-based anion ([BOB]), have been studied at charged interfaces using sum frequency generation (SFG) spectroscopy and neutron reflectivity (NR). For all alkyl chain lengths, the SFG spectra show that the cation imidazolium ring responds to the surface charge by modifying its orientation with respect to the surface normal. In addition, the combination of SFG spectra with electrochemical NR measurements reveals that the longest alkyl chain length (n = 10) forms a bilayer structure at all charged interfaces, independent of the ring orientation. These results demonstrate the tunability of IL interfacial layers through the use of surface charge, as well as effect of the cation alkyl chain length, and provide valuable insight into the charge compensation mechanisms of ILs., QC 20200622

Published
2020
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19. 3D texturing of the air–water interface by biomimetic self-assembly

Author

Bergendal, Erik, Campbell, Richard A., Pilkington, Georgia, Müller-Buschbaum, Peter, Rutland, Mark W., Bergendal, Erik, Campbell, Richard A., Pilkington, Georgia, Müller-Buschbaum, Peter, and Rutland, Mark W.

Abstract

A simple, insoluble monolayer of fatty acid is shown to induce 3D nanotexturing of the air–water interface. This advance has been achieved through the study of monolayers of a methyl-branched long chain fatty acid, analogous to those found on the surface of hair and wool, directly at the air–water interface. Specular neutron reflectometry combined with AFM probing of deposited monolayers shows pronounced 3D surface domains, which are absent for unbranched analogues and are attributed to hydrocarbon packing constraints. The resulting surface topographies of the water far exceed the height perturbation that can be explained by the presence of capillary waves of a free liquid surface. These have hitherto been considered the only source of perturbation of the flatness of a planar water interface under gravity in the absence of topographical features from the presence of extended, globular or particulate matter. This amounts to a paradigm shift in the study of interfacial films and opens the possibility of 3D texturing of the air–water interface., QC 20200512

Published
2020
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21. 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, Pálsson, Gunnar K., Vorobiev, Alexei, Antzutkin, Oleg. N., Glavatskih, Sergei, Rutland, Mark W., Pilkington, Georgia A., Harris, Kathryn, Bergendal, Erik, Reddy, Akepati Bhaskar, Pálsson, Gunnar K., Vorobiev, Alexei, Antzutkin, Oleg. N., Glavatskih, Sergei, and Rutland, Mark W.

Abstract

Using neutron reflectivity, the electro-responsive structuring of the non-halogenated ionic liquid (IL) trihexyl(tetradecyl)phosphonium-bis(mandelato)borate, [ P-6,P-6,P-6,P-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.

Published
2018
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22. Anomalous Interfacial Structuring of a Non-Halogenated Ionic Liquid : Effect of Substrate and Temperature

Author

Radiom, Milad, Pedraz, Patricia, Pilkington, Georgia, Rohlmann, Patrick, Glavatskih, Sergei, Rutland, Mark W., Radiom, Milad, Pedraz, Patricia, Pilkington, Georgia, Rohlmann, Patrick, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

We investigate the interfacial properties of the non-halogenated ionic liquid (IL), trihexyl(tetradecyl)phosphonium bis(mandelato)borate, [P6,6,6,14][BMB], in proximity to solid surfaces, by means of surface force measurement. The system consists of sharp atomic force microscopy (AFM) tips interacting with solid surfaces of mica, silica, and gold. We find that the force response has a monotonic form, from which a characteristic steric decay length can be extracted. The decay length is comparable with the size of the ions, suggesting that a layer is formed on the surface, but that it is diffuse. The long alkyl chains of the cation, the large size of the anion, as well as crowding of the cations at the surface of negatively charged mica, are all factors which are likely to oppose the interfacial stratification which has, hitherto, been considered a characteristic of ionic liquids. The variation in the decay length also reveals differences in the layer composition at different surfaces, which can be related to their surface charge. This, in turn, allows the conclusion that silica has a low surface charge in this aprotic ionic liquid. Furthermore, the effect of temperature has been investigated. Elevating the temperature to 40 °C causes negligible changes in the interaction. At 80 °C and 120 °C, we observe a layering artefact which precludes further analysis, and we present the underlying instrumental origin of this rather universal artefact., QC 20190619

Published
2018
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23. Sustained Frictional Instabilities on Nanodomed Surfaces : Stick Slip Amplitude Coefficient

Author

Quignon, Benoit, Pilkington, Georgia A., Thormann, Esben, Claesson, Per M., Ashfold, Michael N. R., Mattia, Davide, Leese, Hannah, Davis, Sean A., Briscoe, Wuge H., Quignon, Benoit, Pilkington, Georgia A., Thormann, Esben, Claesson, Per M., Ashfold, Michael N. R., Mattia, Davide, Leese, Hannah, Davis, Sean A., and Briscoe, Wuge H.

Abstract

Understanding the frictional properties of nanostructured surfaces is important because of their increasing application in modem minlaturized devices. In this work, lateral force microscopy was used to study the frictional properties between AFM nanotip and surfaces bearing well-defined ranging from tens to hundreds of nanometers. Our results show that the average lateral force varied linearly with applied load, as described by Amontons' first law of friction, although no direct correlation between the sample topographic properties and their measured friction coeffidents was identified. Furthermore, all the nanodomed textures exhibited pronounced osdllations in the shear traces, similar to the dassic stick slip behavior, under all the shear velocities and load regimes studied. That is, the nanotextured topography led to sustained frictional instabilities, effectively with no contact frictional sliding. The amplitude of the stick slip oscillations, ab was found to correlate with the topographic properties of the surfaces and scale linearly with the applied load. In line with the friction coefficient, we define the slope of this linear plot as the stick slip amplitude coeffident (SSAC). We suggest that such stick slip behaviors are characteristics of surfaces with nanotextures and that such local frictional instabilities have important implications to surface damage and wear. We thus propose that the shear characteristics of the nanodomed surfaces cannot be fully described by the framework of Amontons' laws of friction and that additional parameters (e.g., a, and SSAQ are required, when their friction, lubrication, and wear properties are important considerations in related nanodevices., QC 20140130

Published
2013
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24. Amontonian frictional behaviour of nanostructured surfaces

Author

Pilkington, Georgia A., Thormann, Esben, Claesson, Per M., Fuge, Gareth M., Fox, Oliver J. L., Ashfold, Michael N. R., Leese, Hannah, Mattia, Davide, Briscoe, Wuge H., Pilkington, Georgia A., Thormann, Esben, Claesson, Per M., Fuge, Gareth M., Fox, Oliver J. L., Ashfold, Michael N. R., Leese, Hannah, Mattia, Davide, and Briscoe, Wuge H.

Abstract

With nanotextured surfaces and interfaces increasingly being encountered in technological and biomedical applications, there is a need for a better understanding of frictional properties involving such surfaces. Here we report friction measurements of several nanostructured surfaces using an Atomic Force Microscope (AFM). These nanostructured surfaces provide well defined model systems on which we have tested the applicability of Amontons' laws of friction. Our results show that Amontonian behaviour is observed with each of the surfaces studied. However, no correlation has been found between measured friction and various surface roughness parameters such as average surface roughness (Ra) and root mean squared (rms) roughness. Instead, we propose that the friction coefficient may be decomposed into two contributions, i.e., μ = μ0 + μg, with the intrinsic friction coefficient μ0 accounting for the chemical nature of the surfaces and the geometric friction coefficient μg for the presence of nanotextures. We have found a possible correlation between μg and the average local slope of the surface nanotextures., QC 20120207

Published
2011
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25. Tribotronic traction control through ionic boundary films : influence of cation architecture

Author

Reddy, Akepati Bhaskar, Li, Sichao, Pilkington, Georgia, Bousrez, Guillaume, Moir, Michael, Nelson, Andrew, Shimpi, Manishkumar R., Mudring, Anja-Verena, Glavatskih, Sergei, Rutland, Mark W., Reddy, Akepati Bhaskar, Li, Sichao, Pilkington, Georgia, Bousrez, Guillaume, Moir, Michael, Nelson, Andrew, Shimpi, Manishkumar R., Mudring, Anja-Verena, Glavatskih, Sergei, and Rutland, Mark W.

Abstract

QC 20240115

26. Dicationic versus Monocationic Non-Halogenated Ionic Liquids in an Organic Solvent : Nanostructure and Electro-Intercalative Crowding

Author

Li, Sichao, Hammond, Oliver S., Bousrez, Guillaume, Reddy, Akepati Bhaskar, Renier, Olivier, Adranno, Brando, Campo, Liliana de, Vorobiev, Alexei, Glavatskih, Sergei, Pilkington, Georgia, Mudring, Anja-Verena, Rutland, Mark W., Li, Sichao, Hammond, Oliver S., Bousrez, Guillaume, Reddy, Akepati Bhaskar, Renier, Olivier, Adranno, Brando, Campo, Liliana de, Vorobiev, Alexei, Glavatskih, Sergei, Pilkington, Georgia, Mudring, Anja-Verena, and Rutland, Mark W.

Abstract

QC 20240115

27. Tuneable Self-Assembly Curvature at the Air–Water Interface

Author

Bergendal, Erik, Gutfreund, Philipp, Pilkington, Georgia A, Campbell, Richard A, Holt, Stephen A, Rutland, Mark W, Bergendal, Erik, Gutfreund, Philipp, Pilkington, Georgia A, Campbell, Richard A, Holt, Stephen A, and Rutland, Mark W

Abstract

QC 20200610

29. Anion Architecture Controls Structure and Electroresponsivity of Anhalogenous Ionic Liquids in a Sustainable Fluid.

Author

Li S, Hammond OS, Nelson A, de Campo L, Moir M, Recsei C, Shimpi MR, Glavatskih S, Pilkington GA, Mudring AV, and Rutland MW

Abstract

Three nonhalogenated ionic liquids (ILs) dissolved in 2-ethylhexyl laurate (2-EHL), a biodegradable oil, are investigated in terms of their bulk and electro-interfacial nanoscale structures using small-angle neutron scattering (SANS) and neutron reflectivity (NR). The ILs share the same trihexyl(tetradecyl)phosphonium ([P 6,6,6,14 ] + ) cation paired with different anions, bis(mandelato)borate ([BMB] - ), bis(oxalato)borate ([BOB] - ), and bis(salicylato)borate ([BScB] - ). SANS shows a high aspect ratio tubular self-assembly structure characterized by an IL core of alternating cations and anions with a 2-EHL-rich shell or corona in the bulk, the geometry of which depends upon the anion structure and concentration. NR also reveals a solvent-rich interfacial corona layer. Their electro-responsive behavior, pertaining to the structuring and composition of the interfacial layers, is also influenced by the anion identity. [P 6,6,6,14 ][BOB] exhibits distinct electroresponsiveness to applied potentials, suggesting an ion exchange behavior from cation-dominated to anion-rich. Conversely, [P 6,6,6,14 ][BMB] and [P 6,6,6,14 ][BScB] demonstrate minimal electroresponses across all studied potentials, related to their different dissociative and diffusive behavior. A mixed system is dominated by the least soluble IL but exhibits an increase in disorder. This work reveals the subtlety of anion architecture in tuning bulk and electro-interfacial properties, offering valuable molecular insights for deploying nonhalogenated ILs as additives in biodegradable lubricants and supercapacitors.

Published
2024
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