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Probing the effects of oxidative stress on the membrane binding of alpha-synu...
Neutron reflectometry will be used to characterise the cellular membrane binding interaction of alpha-synuclein under conditions mimicking oxidative stress. Alpha-synuclein is... -
Practical viscosifiers for supercritical CO2
This proposal explores headgroup-free, fluorocarbon-hydrocarbon hybrid compounds able toform viscous elongated aggregates in supercritical CO2 with the aim of improving... -
SANS Study of the interaction of non-ionic surfactants with wheat and barley ...
We propose to make use of SANS to determine the influence the presence of cuticular plant waxes have on the size, shape and structural properties of various non-ionic... -
The formation of elongated aggregates in supercritical CO2 through the mixing...
This proposal involves manipulating the curvature of aggregated polar materials in supercritical CO2 (scCO2) by tuning the mixing ratio of fluorocarbon (FC) and hydrocarbon (HC)... -
Micellar modifiers for CO2
This proposal focuses on a new approach to the formation of rod-like micelles in supercritical CO2 (scCO2). Recent successful high-pressure SANS (HP-SANS) results have shown for... -
The formation of elongated aggregates in supercritical CO2 through the mixing...
This proposal involves manipulating the curvature of aggregated polar materials in supercritical CO2 (scCO2) by tuning the mixing ratio of fluorocarbon (FC) and hydrocarbon (HC)... -
Generation of 3D-networks by mixing inexpensive HC-polymers, amphiphiles, and...
For the last two decades, many polymers have been tested to increase CO2 viscosity for enhanced oil recovery using CO2 (CO2-EOR). Unfortunately, conventional HC-polymers were... -
Probing the viability of water-in-CO2 microemulsions with Headgroup-free amph...
Recent SANS studies of an unusual headgroup-free surfactant (Nohead FC6-HC4) produced data that implied the formation of W/CO2 microemulsions (MEs) at a particular pressure (P)... -
Surfactant mixtures in CO2
Studies by the Bristol group, and elsewhere [1, 2], have shown that highly branched hydrocarbon chains is the key factor for generating effective non-fluorous CO2 philic... -
Exploring CO2-philic/ CO2-phobic amphiphiles, cross-linkers and HC-polymers f...
Over the last two decades, many polymers have been tested to increase CO2 viscosity for applications in enhanced oil recovery using CO2 (CO2-EOR). Unfortunately, conventional... -
Estimating carbon contents in historical European blades through neutron diff...
Previous studies have attempted to correlate the results of metallography with neutron diffraction studies on the very high-carbon steels used in Oriental blades. Japanese sword... -
CO2 foams stabilized by W/CO2 interfacially active hydrocarbon surfactants an...
CO2 foams can be formed in water/carbon dioxide (W/CO2) mixtures with the aid of W/CO2 interfacially active hydrocarbon surfactants and surface treated silica nanoparticles... -
W/CO2 nanodispersions as an energy-saving nanoreactor separable by pressure a...
Recent studies implied an unusual headgroup (HG)-free, fluorocarbon (FC) surfactant Nohead FC6-HC4 to form stable, W/CO2 nanodispersions (W/C NDs). With the unusual surfactant... -
Martensite variant evolution of aged Co-Ni-Ga shape memory alloys
Pseudoelastic CoNiGa high-temperature shape memory alloys (HT-SMAs) show a wide range of tunable transformation temperatures and lower processing costs than conventional Ni-Ti-X...