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Structure of lipid monolayers following oxidative damage
Lipids form the major component of cell membranes, which separate the contents of the cell from the external environment. The oxidation of lipids within biological membranes is... -
Magnetic order in polar oxides: Mn2FeWO6 and Mn2MnWO6
Magnetoelectric materials, combining properties associated with magnetic and ferroelectric memory applications (e.g. in hard drives) are difficult to prepare but would represent... -
Swelling of Single Supported Bilayers ¿ First Systematic Investigation of the...
This proposal addresses bilayer swelling experiements on floating supported bilayers (FSBs) in the presence of biological buffers. Previous work on multilamellar vesicles has... -
The interaction of novel gold supraparticles with model lipid membranes
Engineered nanoparticles (NPs) found large application in medicine as theranostic materials for the diagnosis and therapy of many diseases. The understanding of the interactions... -
Effect of Phosphatidylserine lipids on Tissue Factor structure and function i...
Tissue Factor (TF) is the membrane protein responsible for the initiation of the blood coagulation process [1]. In case of a vessel injury, the TF is exposed to the blood stream... -
The Local Structure of Doped α - Tricalcium Phosphate
The biomaterial potential of many calcium phosphates, such as hydroxyapatites and tricalcium phosphates (Ca3(PO4)2, TCP hereafter), have led to much literature attention over... -
Interplay of magnetism and superconductivity in the iron-based spin ladder Ba...
Iron-based superconductors (FeSCs) have been an essential research area in condensed matter physics. Spins of iron sites forming a long periodic configuration, called the... -
Modification of an adsorbed cationic layer by anionic surfactants below the CMC
In this proposal, we request beamtime to study the unexpected behaviour of a strongly bound bilayer of the cationic surfactant didodecyldimethylammonium bromide on the anionic... -
The Dynamics of Breathing Metal-Organic Frameworks from Total Scattering
Metal-organic framework materials are a topical family of nanoporous solids that have potential applications in molecular storage, separation and catalysis. Some of these... -
Investigating the magnetism in the potential multiferroics Pb3TeCo3B2O14 (B =...
We propose to use WISH to perform high resolution diffraction measurements using a fine temperature step size on powder Pb3TeCo3B2O14 (B=V,P). These measurements are crucial to... -
Lthiation to tune tilts in potential hydrid-improper ferroelectrics
This dataset has no description
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Auger recombination in low temperature silicon measured by photo-MuSR technique
We measure electron-hole recombination rate in low-temperature pure silicon using the photo-MuSR technique. The previous works have measured the recombination rate down to -30... -
Probing the magnetic ground state in one dimensional magnetic systems Ba3CrS5...
Most of the one dimensional spin chain compounds are antiferromagnetic with a rich magnetic phase diagram due to the magnetic frustration. We have synthesized Ba3CrS5 and... -
Defects in the Core Oligosaccharide in Gram Negative Bacterial Outer Membrane...
The outer membrane of Gram negative bacterial is an effective barrier for many harmful agents. We have been developing and testing advanced models of the Gram negative bacterial... -
Influence of shear on polymer adsorption at solid / liquid interfaces
Lubricants contain a complex mixtures of polymers and base oils that must provide protection to moving surfaces with minimal energy loss due to friction or viscous drag. There... -
New solid electrolyte Li3AlS3
This dataset has no description
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Magnetic and crystal structures of substituted BiFeO3 from high resolution ne...
The multiferroic perovskite BiFeO3 is the only material that displays both ferroelectric and antiferromagnetic order at RT. Significant efforts are aimed at better understanding... -
Auger recombination in low temperature silicon measured by photo-MuSR technique
We measure electron-hole recombination rate in low-temperature pure silicon using the photo-MuSR technique. The previous works have measured the recombination rate down to -30... -
Understanding transition metal, oxygen and proton local order in proton condu...
Proton conducting materials have received widespread attention in recent years, due to their rich potential in the areas of energy related research, sensors and membranes. Here,... -
Investigation of the magnetism and multiferroic properties in the MOF Cu--gua...
Multiferroic materials which exhibit both ferroelectric and (anti)ferromagnetic ordering are of great technological importance offering the potential for the design of novel...
