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1. The effect of direct electron beam patterning on the water uptake and ionic conductivity of Nafion thin films

Author

Nguyen, Ky V., Gluschke, Jan G., Mostert, A. Bernardus, Nelson, Andrew, Burwell, Gregory, Lyttleton, Roman W., Cavaye, Hamish, Welbourn, Rebecca J. L., Seidl, Jakob, Lagier, Maxime, Miranda, Marta Sanchez, McGettrick, James D., Watson, Trystan, Meredith, Paul, and Micolich, Adam P.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We report the effect of electron-beam patterning on the water uptake and ionic conductivity of Nafion films using a combination of x-ray photoelectron spectroscopy, quartz crystal microbalance studies, neutron reflectometry, and AC impedance spectroscopy. The aim was to more fully characterize the nature of the nanoscale patterned Nafion structures recently used as a key element in novel ion-to-electron transducers by Gluschke et al. To enable these studies, we develop the electron beam patterning process for large areas, achieving patterning speeds approaching 1 cm$^{2}$/hr, and patterned areas as large as 7 cm$^{2}$ for the neutron reflectometry studies. We ultimately show that electron-beam patterning affects both the water uptake and the ionic conductivity, depending on film thickness. We see Type-II adsorption isotherm behaviour for all films. For thick films (~230 nm), we see a strong reduction in water uptake with electron-beam patterning. In contrast, for thin films (~30 nm), electron-beam patterning enhances water uptake. Notably, we find that for either thickness the reduction in ionic conductivity arising from electron-beam patterning is kept to less than an order of magnitude. We propose mechanisms for the observed behaviour based on the known complex morphology of Nafion films to motivate future studies of electron-beam processed Nafion.

Published
2023
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8. Understanding interactions of plasticisers with a phospholipid monolayer

Author

Gustafsson, Emil, Hellsing, Maja, Rennie, Adrian R., Welbourn, Rebecca J. L., Campana, Mario, Hughes, Arwel, Li, Peixun, Melander Bowden, Tim, Gustafsson, Emil, Hellsing, Maja, Rennie, Adrian R., Welbourn, Rebecca J. L., Campana, Mario, Hughes, Arwel, Li, Peixun, and Melander Bowden, Tim

Abstract

The use of DEHP (diethylhexyl phthalate) is now banned for most applications in Europe; the exception is for blood bags, where its toxicity is overshadowed by its ability to extend the storage life of red blood cells. Another plasticiser, BTHC (butanoyl trihexyl citrate), is used in paediatric blood bags but does not stabilise blood cells as effectively. Interactions between plasticisers and lipids are investigated with a phospholipid, DMPC, to understand the increased stability of blood cells in the presence of DEHP as well as bioaccumulation and identify differences with BTHC. Mixed monolayers of DMPC and DEHP or BTHC were studied on Langmuir troughs where surface pressure/area isotherms can be measured. Neutron reflection measurements were made to determine the composition and structure of these mixed layers. A large amount of plasticiser can be incorporated into a DMPC monolayer but once an upper limit is reached, plasticiser is selectively removed from the interface at high surface pressures. The upper limit is found to occur between 40-60 mol% for DEHP and 20-40 mol% for BTHC. The areas per molecule are also different with DEHP being in the range of 50-100 Å2 and BTHC being 65-120 Å2. Results indicate that BTHC does not fit as well as DEHP in DMPC monolayers which could help explain the differences observed with regards to the stability of blood cells., We thank SSF for the funding for EG in the SwedNESS graduate school, grant number GSn15-0008. The ISIS Pulsed Neutron and Muon Facility is thanked for the allocations of beam time under RB1810574 (SURF) and RB1820418 (INTER).

Published
2024
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9. The lifetimes and potential change in planetary albedo owing to the oxidation of organic films extracted from atmospheric aerosol by hydroyxl (OH) radical oxidation at the air-water interface of aerosol particles [in review]

Author

Shepherd, Rosalie, King, Martin, Ward, Andrew, Stuckey, Edward, Welbourn, Rebecca, Brough, Neil, Milsom, Adam, Pfrang, Christian, Arnold, Thomas, Shepherd, Rosalie, King, Martin, Ward, Andrew, Stuckey, Edward, Welbourn, Rebecca, Brough, Neil, Milsom, Adam, Pfrang, Christian, and Arnold, Thomas

Abstract

Water insoluble organic material extracted from atmospheric aerosol samples collected in urban (Royal Holloway, University of London, UK) and remote (Halley, Antarctica) locations were shown to form stable thin films at an air-water interface, these organic films reacted quickly with gas-phase OH radicals which may impact planetary albedo. The x-ray reflectivity measurements additionally indicate that the film may be consistent with having a structure with increased electron density of film molecules towards the water, suggesting amphiphilic behaviour. Bimolecular rate constants for gas-phase OH radical oxidation of urban or remote aerosol extracts were typically of the order ∼1010 cm3 molecule−1 s−1, giving atmospheric lifetimes of the film with respect to gas-phase OH radical oxidation of minutes at typical atmospheric OH radical concentrations. Kinetic modelling of core-shell droplet dynamics suggests film lifetime of a few minutes, depending on ambient OH radical mixing ratio. Modelling the oxidation kinetics with KM SUB suggests half-lives of minutes to an hour and values of ksurf of ∼ 2 × 10−7 and ∼ 5 × 10−5 cm2 s−1 for urban and remote aerosol film extracts respectively. The lifetimes and half-lives calculated at typical OH atmospheric ambient mixing ratios are smaller than the typical residence time of atmospheric aerosols and thus oxidation of organic material should be considered in atmospheric modelling. Thin organic films at the air-water interface of atmospheric aerosol or cloud droplets may alter the light scattering properties of the aerosol. X-ray reflectivity measurements of atmospheric aerosol film material at the air-water interface resulted in calculated film thickness values to be either ∼10 Å or ∼17 Å for remote or urban aerosol extracts respectively and oxidation did not remove the films completely. One dimensional radiative transfer-modelling suggest the oxidation of thin organic films on atmospheric particles by OH radicals may reduce the

Published
2024

11. Experimental and simulation study of self-assembly and adsorption of glycerol monooleate in n-dodecane with varying water content onto iron oxide

Author

Armstrong, Alexander J., primary, Apóstolo, Rui F. G., additional, McCoy, Thomas Malcolm, additional, Allen, Finian J., additional, Doutch, James, additional, Cattoz, Beatrice, additional, Dowding, Peter John, additional, Welbourn, Rebecca, additional, Routh, Alexander, additional, and Camp, Philip James, additional

Published
2024
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16. Structural Characterization of Nanoparticle-Supported Lipid Bilayer Arrays by Grazing Incidence X-ray and Neutron Scattering

Author

Paracini, Nicolo, Gutfreund, Philipp, Welbourn, Rebecca, Gonzalez-Martinez, Juan Francisco, Zhu, Kexin, Miao, Yansong, Yepuri, Nageshwar, Darwish, Tamim A. ., Garvey, Christopher, Waldie, Sarah, Larsson, Johan, Wolff, Max, Cardenas, Marite, Paracini, Nicolo, Gutfreund, Philipp, Welbourn, Rebecca, Gonzalez-Martinez, Juan Francisco, Zhu, Kexin, Miao, Yansong, Yepuri, Nageshwar, Darwish, Tamim A. ., Garvey, Christopher, Waldie, Sarah, Larsson, Johan, Wolff, Max, and Cardenas, Marite

Abstract

Arrays of nanoparticle-supported lipid bilayers (nanoSLB) are lipid-coated nanopatterned interfaces that provide a platform to study curved model biological membranes using surface-sensitive techniques. We combined scattering techniques with direct imaging, to gain access to sub-nanometer scale structural information on stable nanoparticle monolayers assembled on silicon crystals in a noncovalent manner using a Langmuir-Schaefer deposition. The structure of supported lipid bilayers formed on the nanoparticle arrays via vesicle fusion was investigated using a combination of grazing incidence X-ray and neutron scattering techniques complemented by fluorescence microscopy imaging. Ordered nanoparticle assemblies were shown to be suitable and stable substrates for the formation of curved and fluid lipid bilayers that retained lateral mobility, as shown by fluorescence recovery after photobleaching and quartz crystal microbalance measurements. Neutron reflectometry revealed the formation of high-coverage lipid bilayers around the spherical particles together with a flat lipid bilayer on the substrate below the nanoparticles. The presence of coexisting flat and curved supported lipid bilayers on the same substrate, combined with the sub-nanometer accuracy and isotopic sensitivity of grazing incidence neutron scattering, provides a promising novel approach to investigate curvature-dependent membrane phenomena on supported lipid bilayers.

Published
2023
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17. Supplementary Information, Materials and Methods for: Structural Characterisation of Nanoparticle-Supported Lipid Bilayer Arrays by Grazing Incidence X-ray and Neutron Scattering

Author

Paracini, Nicolò, Gutfreund, Philipp, Welbourn, Rebecca, González-Martínez, Juan Francisco, Zhu, Kexin, Miao, Yansong, Yepuri, Nageshwar, Darwish, Tamim, Garvey, Christopher, Waldie, Sarah, Larsson, Johan, Wolff, Max, Cárdenas, Marité, Paracini, Nicolò, Gutfreund, Philipp, Welbourn, Rebecca, González-Martínez, Juan Francisco, Zhu, Kexin, Miao, Yansong, Yepuri, Nageshwar, Darwish, Tamim, Garvey, Christopher, Waldie, Sarah, Larsson, Johan, Wolff, Max, and Cárdenas, Marité

Abstract

Arrays of nanoparticle-supported lipid bilayers (nanoSLB) are lipid-coated nanopatterned interfaces that provide a platform to study curved model biological membranes using surface-sensitive techniques. We combined scattering techniques with direct imaging, to gain access to sub-nanometer scale structural information on stable nanoparticle monolayers assembled on silicon crystals in a noncovalent manner using a Langmuir–Schaefer deposition. The structure of supported lipid bilayers formed on the nanoparticle arrays via vesicle fusion was investigated using a combination of grazing incidence X-ray and neutron scattering techniques complemented by fluorescence microscopy imaging. Ordered nanoparticle assemblies were shown to be suitable and stable substrates for the formation of curved and fluid lipid bilayers that retained lateral mobility, as shown by fluorescence recovery after photobleaching and quartz crystal microbalance measurements. Neutron reflectometry revealed the formation of high-coverage lipid bilayers around the spherical particles together with a flat lipid bilayer on the substrate below the nanoparticles. The presence of coexisting flat and curved supported lipid bilayers on the same substrate, combined with the sub-nanometer accuracy and isotopic sensitivity of grazing incidence neutron scattering, provides a promising novel approach to investigate curvature-dependent membrane phenomena on supported lipid bilayers.

Published
2023

18. Structural Characterization of Nanoparticle-Supported Lipid Bilayer Arrays by Grazing Incidence X-ray and Neutron Scattering

Author

Swedish Research Council, Wenner-Gren Foundation, Nanyang Technological University, Ministry of Education (Singapore), National Collaborative Research Infrastructure Strategy (Australia), Australian Government, Röntgen-Ångström Cluster, NordForsk, Paracini, Nicolò, Gutfreund, Philipp, Welbourn, Rebecca, González-Martínez, Juan Francisco, Zhu, Kexin, Miao, Yansong, Yepuri, Nageshwar, Darwish, Tamim, Garvey, Christopher, Waldie, Sarah, Larsson, Johan, Wolff, Max, Cárdenas, Marité, Swedish Research Council, Wenner-Gren Foundation, Nanyang Technological University, Ministry of Education (Singapore), National Collaborative Research Infrastructure Strategy (Australia), Australian Government, Röntgen-Ångström Cluster, NordForsk, Paracini, Nicolò, Gutfreund, Philipp, Welbourn, Rebecca, González-Martínez, Juan Francisco, Zhu, Kexin, Miao, Yansong, Yepuri, Nageshwar, Darwish, Tamim, Garvey, Christopher, Waldie, Sarah, Larsson, Johan, Wolff, Max, and Cárdenas, Marité

Abstract

Arrays of nanoparticle-supported lipid bilayers (nanoSLB) are lipid-coated nanopatterned interfaces that provide a platform to study curved model biological membranes using surface-sensitive techniques. We combined scattering techniques with direct imaging, to gain access to sub-nanometer scale structural information on stable nanoparticle monolayers assembled on silicon crystals in a noncovalent manner using a Langmuir–Schaefer deposition. The structure of supported lipid bilayers formed on the nanoparticle arrays via vesicle fusion was investigated using a combination of grazing incidence X-ray and neutron scattering techniques complemented by fluorescence microscopy imaging. Ordered nanoparticle assemblies were shown to be suitable and stable substrates for the formation of curved and fluid lipid bilayers that retained lateral mobility, as shown by fluorescence recovery after photobleaching and quartz crystal microbalance measurements. Neutron reflectometry revealed the formation of high-coverage lipid bilayers around the spherical particles together with a flat lipid bilayer on the substrate below the nanoparticles. The presence of coexisting flat and curved supported lipid bilayers on the same substrate, combined with the sub-nanometer accuracy and isotopic sensitivity of grazing incidence neutron scattering, provides a promising novel approach to investigate curvature-dependent membrane phenomena on supported lipid bilayers.

Published
2023

19. Does gas-phase sulfur dioxide remove films of atmosphere-extracted organic material from the aqueous aerosol air–water interface?Electronic supplementary information (ESI) available: Data accessible through ISIS open access data. See DOI: https://doi.org/10.1039/d4ea00098f

Author

Stuckey, Edward J., Welbourn, Rebecca J. L., Jones, Stephanie H., Armstrong, Alexander J., Wilkinson, Matthew, Morison, James I. L., and King, Martin D.

Abstract

The reaction of gas-phase SO2with unsaturated carbon–carbon double bonds forms organosulfates at the surface of the aerosol. Previous studies have focused on the reaction products and not the fate of organic films in the atmosphere. Neutron reflectometry was used to study the interaction of gas-phase SO2at the air–water interface with organic material extracted from atmospheric particulate matter and pure proxy chemicals to determine whether the reaction of organic films with SO2removes the film and if a product film is formed. Films formed from atmospheric aerosol collected in urban and woodland environments typically produced a layer of approximately 0.6 nm thickness, whereas a thick (>40 nm) film was formed by the woodsmoke sample. Fitting of this thicker woodsmoke film suggested a three-layered structure at the interface that has been interpreted to be consistent with a surfactant-rich layer next to the air–water interface, a mid-layer rich in polyaromatic hydrocarbons (PAH), and topped with a more aliphatic region. The multilayer structure of atmospheric extracted material at the air–water interface is potentially an exciting result that requires further study. Gas-phase SO2was confirmed to react with pure insoluble surfactant molecules at the air–water interface that contained carbon–carbon double bonds (oleic acid) and did not react with a similar saturated surfactant (stearic acid). No reaction was observed during the interaction of SO2and atmospheric material extracted from urban and woodland environments, and no material appeared to be removed from the interface; however, films made from woodsmoke-extracted material did appear to be altered by SO2but there was no significant loss of material. In addition, the gas-phase ozone mixing ratios in the neutron blockhouse, which have historically been of some concern for reactions with organics, were found to be of the order 15 ppb, with no evidence of additional production in the neutron beam-path. Owing to a lack of substantial removal of material from real atmospheric extracted films, SO2is not considered atmospherically significant for the removal of organic films from the air–water interface.

Published
2024
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20. Effect of Anionic Lipids on Mammalian Plasma Cell Membrane Properties

Author

Martin, Alexandra L., primary, Jemmett, Philip N., additional, Howitt, Thomas, additional, Wood, Mary H., additional, Burley, Andrew W., additional, Cox, Liam R., additional, Dafforn, Timothy R., additional, Welbourn, Rebecca J. L., additional, Campana, Mario, additional, Skoda, Maximilian W. A., additional, Thompson, Joseph J., additional, Hussain, Hadeel, additional, Rawle, Jonathan L., additional, Carlà, Francesco, additional, Nicklin, Christopher L., additional, Arnold, Thomas, additional, and Horswell, Sarah L., additional

Published
2023
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21. Structural Characterization of Nanoparticle-Supported Lipid Bilayer Arrays by Grazing Incidence X-ray and Neutron Scattering

Author

Paracini, Nicolò, primary, Gutfreund, Philipp, additional, Welbourn, Rebecca, additional, Gonzalez-Martinez, Juan Francisco, additional, Zhu, Kexin, additional, Miao, Yansong, additional, Yepuri, Nageshwar, additional, Darwish, Tamim A., additional, Garvey, Christopher, additional, Waldie, Sarah, additional, Larsson, Johan, additional, Wolff, Max, additional, and Cárdenas, Marité, additional

Published
2023
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24. Neutron Reflection at the Calcite-Liquid Interface

Author

Stocker, Isabella N., Miller, Kathryn L., Lee, Seung Y., Welbourn, Rebecca J. L., Mannion, Alice R., Collins, Ian R., Webb, Kevin J., Wildes, Andrew, Kinane, Christian J., Clarke, Stuart M., Starov, Victor, editor, and Griffiths, Peter, editor

Published
2012
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27. Structural Characterisation of Nanoparticle-Supported Lipid Bilayers by Grazing Incidence X-ray and Neutron Scattering

Author

Paracini, Nicolo', primary, Gutfreund, Philipp, additional, Welbourn, Rebecca, additional, Gonzales, Juan Francisco, additional, Zhu, Kexin, additional, Miao, Yansong, additional, Nageshwar, Yepuri, additional, Darwish, Tamim A, additional, Garvey, Christopher, additional, Waldie, Sarah, additional, Larsson, Johan, additional, Wolff, Max, additional, and Cardenas, Marite', additional

Published
2022
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29. Measurement of gas-phase OH radical oxidation and film thickness of organic films at the air–water interface using material extracted from urban, remote and wood smoke aerosol

Author

Shepherd, Rosalie H., King, Martin D., Rennie, Adrian R., Ward, Andrew D., Frey, Markus M., Brough, Neil, Eveson, Joshua, Del Vento, Sabino, Milsom, Adam, Pfrang, Christian, Skoda, Maximilian W. A., Welbourn, Rebecca J. L., Shepherd, Rosalie H., King, Martin D., Rennie, Adrian R., Ward, Andrew D., Frey, Markus M., Brough, Neil, Eveson, Joshua, Del Vento, Sabino, Milsom, Adam, Pfrang, Christian, Skoda, Maximilian W. A., and Welbourn, Rebecca J. L.

Abstract

The presence of an organic film on a cloud droplet or aqueous aerosol particle has the potential to alter the chemical, optical and physical properties of the droplet or particle. In the study presented, water insoluble organic materials extracted from urban, remote (Antarctica) and wood burning atmospheric aerosol were found to have stable, compressible, films at the air–water interface that were typically ∼6–18 Å thick. These films are reactive towards gas-phase OH radicals and decay exponentially, with bimolecular rate constants for reaction with gas-phase OH radicals of typically 0.08–1.5 × 10−10 cm3 molecule−1 s−1. These bimolecular rate constants equate to initial OH radical uptake coefficients estimated to be ∼0.6–1 except woodsmoke (∼0.05). The film thickness and the neutron scattering length density of the extracted atmosphere aerosol material (from urban, remote and wood burning) were measured by neutron reflection as they were exposed to OH radicals. For the first time neutron reflection has been demonstrated as an excellent technique for studying the thin films formed at air–water interfaces from materials extracted from atmospheric aerosol samples. Additionally, the kinetics of gas-phase OH radicals with a proxy compound, the lipid 1,2-distearoyl-sn-glycero-3-phosphocholine (DSPC) was studied displaying significantly different behaviour, thus demonstrating it is not a good proxy for atmospheric materials that may form films at the air–water interface. The atmospheric lifetimes, with respect to OH radical oxidation, of the insoluble organic materials extracted from atmospheric aerosol at the air–water interface were a few hours. Relative to a possible physical atmospheric lifetime of 4 days, the oxidation of these films is important and needs inclusion in atmospheric models. The optical properties of these films were previously reported [Shepherd et al., Atmos. Chem. Phys., 2018, 18, 5235–5252] and there is a significant change in top of the atmosphere a

Published
2022

30. MUC5B mucin films under mechanical confinement : A combined neutron reflectometry and atomic force microscopy study.

Author

Gonzalez-Martinez, Juan F, Boyd, Hannah, Gutfreund, Philipp, Welbourn, Rebecca J L, Robertsson, Carolina, Wickström, Claes, Arnebrant, Thomas, Richardson, Robert M, Prescott, Stuart W, Barker, Robert, Sotres, Javier, Gonzalez-Martinez, Juan F, Boyd, Hannah, Gutfreund, Philipp, Welbourn, Rebecca J L, Robertsson, Carolina, Wickström, Claes, Arnebrant, Thomas, Richardson, Robert M, Prescott, Stuart W, Barker, Robert, and Sotres, Javier

Abstract

HYPOTHESIS: Among other functions, mucins hydrate and protect biological interfaces from mechanical challenges. Mucins also attract interest as biocompatible coatings with excellent lubrication performance. Therefore, it is of high interest to understand the structural response of mucin films to mechanical challenges. We hypothesized that this could be done with Neutron Reflectometry using a novel sample environment where mechanical confinement is achieved by inflating a membrane against the films. EXPERIMENTS: Oral MUC5B mucin films were investigated by Force Microscopy/Spectroscopy and Neutron Reflectometry both at solid-liquid interfaces and under mechanical confinement. FINDINGS: NR indicated that MUC5B films were almost completely compressed and dehydrated when confined at 1 bar. This was supported by Force Microscopy/Spectroscopy investigations. Force Spectroscopy also indicated that MUC5B films could withstand mechanical confinement by means of steric interactions for pressures lower than ∼ 0.5 bar i.e., mucins could protect interfaces from mechanical challenges of this magnitude while keeping them hydrated. To investigate mucin films under these pressures by means of the employed sample environment for NR, further technological developments are needed. The most critical would be identifying or developing more flexible membranes that would still meet certain requirements like chemical homogeneity and very low roughness.

Published
2022
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32. Measurement of gas-phase OH radical oxidation and film thickness of organic films at the air–water interface using material extracted from urban, remote and wood smoke aerosol

Author

Shepherd, Rosalie H., primary, King, Martin D., additional, Rennie, Adrian R., additional, Ward, Andrew D., additional, Frey, Markus M., additional, Brough, Neil, additional, Eveson, Joshua, additional, Del Vento, Sabino, additional, Milsom, Adam, additional, Pfrang, Christian, additional, Skoda, Maximilian W. A., additional, and Welbourn, Rebecca J. L., additional

Published
2022
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35. Effect of nonionic and amphoteric surfactants on salivary pellicles reconstituted in vitro

Author

Barker, Robert, Gonzalez‐Martinez, Juan, Welbourn, Rebecca J.L., Ma, Kun, Li, Peixun, Gutfreund, Philipp, Klechikov, Alexey, Arnebrant, Thomas, Sotres, Javier, Barker, Robert, Gonzalez‐Martinez, Juan, Welbourn, Rebecca J.L., Ma, Kun, Li, Peixun, Gutfreund, Philipp, Klechikov, Alexey, Arnebrant, Thomas, and Sotres, Javier

Abstract

Surfactants are important components of oral care products. Sodium dodecyl sulfate (SDS) is the most common because of its foaming properties, taste and low cost. However, the use of ionic surfactants, especially SDS, is related to several oral mucosa conditions. Thus, there is a high interest in using non‐ ionic and amphoteric surfactants as they are less irritant. To better understand the performance of these surfactants in oral care products, we investigated their interaction with salivary pellicles i.e., the proteinaceous films that cover surfaces exposed to saliva. Specifically, we focused on pentaethylene glycol monododecyl ether (C12E5) and cocamidopropyl betaine (CAPB) as model nonionic and amphoteric surfactants respectively, and investigated their interaction with reconstituted salivary pellicles with various surface techniques: Quartz Crystal Microbalance with Dissipation, Ellipsometry, Force Spectroscopy and Neutron Reflectometry. Both C12E5 and CAPB were gentler on pellicles than SDS, removing a lower amount. However, their interaction with pellicles differed. Our work indicates that CAPB would mainly interact with the mucin components of pellicles, leading to collapse and dehydration. In contrast, exposure to C12E5 had a minimal effect on the pellicles, mainly resulting in the replacement/solubilisation of some of the components anchoring pellicles to their substrate.

Published
2021

36. Ultraviolet refractive index values of organic aerosol extracted from deciduous forestry, urban and marine environmentsRaw experimental data can be found at DOI: https://doi.org/10.5281/zenodo.7142837.Electronic supplementary information (ESI) available: details of the collection periods for each sample, further testing of control samples, and the Mie fitting process. See DOI: https://doi.org/10.1039/d3ea00005b

Author

Barker, Connor R., Poole, Megan L., Wilkinson, Matthew, Morison, James, Wilson, Alan, Little, Gina, Stuckey, Edward J., Welbourn, Rebecca J. L., Ward, Andrew D., and King, Martin D.

Abstract

The refractive index values of atmospheric aerosols are required to address the large uncertainties in the magnitude of atmospheric radiative forcing and measurements of the refractive index dispersion with wavelength of particulate matter sampled from the atmosphere are rare over ultraviolet wavelengths. An ultraviolet-optimized spectroscopic system illuminates optically-trapped single particles from a range of tropospheric environments to determine the particle's optical properties. Aerosol from remote marine, polluted urban, and forestry environments is collected on quartz filters, and the organic fraction is extracted and nebulized to form micron-sized spherical particles. The radius and the real component of refractive index dispersion with wavelength of the optically trapped particles are determined to a precision of 0.001 μm and 0.002 respectively over a near-ultraviolet-visible wavelength range of 0.320–0.480 μm. Remote marine aerosol is observed to have the lowest refractive index (n= 1.442 (λ= 0.350 μm)), with above-canopy rural forestry aerosol (n= 1.462–1.481 (λ= 0.350 μm)) and polluted urban aerosol (n= 1.444–1.485 (λ= 0.350 μm)) showing similar refractive index dispersions with wavelength. In-canopy rural forestry aerosol is observed to have the highest refractive index value (n= 1.508 (λ= 0.350 μm)). The study presents the first single particle measurements of the dispersion of refractive index with wavelength of atmospheric aerosol samples below wavelengths of 0.350 μm. The Cauchy dispersion equation, commonly used to describe the visible refractive index variation of aerosol particles, is demonstrated to extend to ultraviolet wavelengths below 0.350 μm for the urban, forestry, and atmospheric aerosol water-insoluble extracts from these environments. A 1D radiative-transfer calculation of the difference in top-of-the-atmosphere albedo between atmospheric core–shell mineral aerosol with and without films of this material demonstrates the importance of organic films forming on mineral aerosol.

Published
2023
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37. Spontaneous Formation of Cushioned Model Membranes Promoted by an Intrinsically Disordered Protein

Author

Gerelli, Yuri, Skog, Amanda Eriksson, Jephthah, Stephanie, Welbourn, Rebecca J. L., Klechikov, Alexey, Skepo, Marie, Gerelli, Yuri, Skog, Amanda Eriksson, Jephthah, Stephanie, Welbourn, Rebecca J. L., Klechikov, Alexey, and Skepo, Marie

Abstract

In this article, it is shown that by exposing commonly used lipids for biomembrane mimicking studies, to a solution containing the histidine-rich intrinsically disordered protein histatin 5, a protein cushion spontaneously forms underneath the bilayer. The underlying mechanism is attributed to have an electrostatic origin, and it is hypothesized that the observed behavior is due to proton charge fluctuations promoting attractive electrostatic interactions between the positively charged proteins and the anionic surfaces, with concomitant counterion release. Hence, we anticipate that this novel "green" approach of forming cushioned bilayers can be an important tool to mimic the cell membrane without the disturbance of the solid substrate, thereby achieving a further understanding of protein-cell interactions.

Published
2020
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38. 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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39. 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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40. A comparison between the structures of reconstituted salivary pellicles and oral mucin (MUC5B) films

Author

Boyd, Hannah, Gonzalez-Martinez, Juan F., Welbourn, Rebecca J.L., Gutfreund, Philipp, Klechikov, Alexey, Robertsson, Carolina, Wickström, Claes, Arnebrant, Thomas, Barker, Robert, Sotres, Javier, Boyd, Hannah, Gonzalez-Martinez, Juan F., Welbourn, Rebecca J.L., Gutfreund, Philipp, Klechikov, Alexey, Robertsson, Carolina, Wickström, Claes, Arnebrant, Thomas, Barker, Robert, and Sotres, Javier

Abstract

Hypothesis: Salivary pellicles i.e., thin films formed upon selective adsorption of saliva, protect oral surfaces against chemical and mechanical insults. Pellicles are also excellent aqueous lubricants. It is generally accepted that reconstituted pellicles have a two-layer structure, where the outer layer is mainly composed of MUC5B mucins. We hypothesized that by comparing the effect of ionic strength on reconstituted pellicles and MUC5B films we could gain further insight into the pellicle structure. Experiments: Salivary pellicles and MUC5B films reconstituted on solid surfaces were investigated at different ionic strengths by Force Spectroscopy, Quartz Crystal Microbalance with Dissipation, Null Ellipsometry and Neutron Reflectometry. Findings: Our results support the two-layer structure for reconstituted salivary pellicles. The outer layer swelled when ionic strength decreased, indicating a weak polyelectrolyte behavior. While initially the MUC5B films exhibited a similar tendency, this was followed by a drastic collapse indicating an interaction between exposed hydrophobic domains. This suggests that mucins in the pellicle outer layer form complexes with other salivary components that prevent this interaction. Lowering ionic strength below physiological values also led to a partial removal of the pellicle inner layer. Overall, our results highlight the importance that the interactions of mucins with other pellicle components play on their structure.

Published
2020

44. Anionic surfactant induced desorption of a cationic surfactant from mica

Author

Allen, F, Truscott, Chris, Welbourn, Rebecca, Clarke, Stuart, Allen, Finian [0000-0002-9823-562X], Truscott, Christopher [0000-0001-5663-772X], Clarke, Stuart [0000-0001-5224-2368], and Apollo - University of Cambridge Repository

Subjects
Didodecyldimethylammonium bromide, Neutron reflectivity, Mica, Surfactant, Sodium dodecyl sulfate, humanities, Catanionic
Abstract

The adsorption and desorption of a cationic surfactant, didodecyldimethy- lammonium bromide, from water onto a mica surface has been investigated using neutron reflectivity. The surfactant was observed to adsorb strongly as a bilayer that was tenacious to a sustained water wash, but on the addition of an anionic surfactant, sodium dodecyl sulfate, at its critical micelle concentration complete desorption was observed.

Published
2018

48. Lipid Sponge-Phase Nanoparticles as Carriers for Enzymes

Author

Badell, Maria Valldeperas, Dabkowska, Aleksandra, Naidjonoka, Polina, Welbourn, Rebecca, Pålsson, Gunnar K., Barauskas, Justas, Nylander, Tommy, Badell, Maria Valldeperas, Dabkowska, Aleksandra, Naidjonoka, Polina, Welbourn, Rebecca, Pålsson, Gunnar K., Barauskas, Justas, and Nylander, Tommy

Published
2018

49. Coadsorption of a Monoclonal Antibody and Nonionic Surfactant at the SiO2/Water Interface

Author

Li, Zongyi, primary, Pan, Fang, additional, Li, Ruiheng, additional, Pambou, Elias, additional, Hu, Xuzhi, additional, Ruane, Sean, additional, Ciumac, Daniela, additional, Li, Peixun, additional, Welbourn, Rebecca J.L., additional, Webster, John R.P., additional, Bishop, Steven M., additional, Narwal, Rojaramani, additional, van der Walle, Christopher F., additional, and Lu, Jian Ren, additional

Published
2018
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