Add to ORKGPhDTotal scattering can be used to study crystalline materials, whose structure presents a periodic arrangement of atoms, as well as disordered materials, such as liquids, glasses or nanomaterials. This thesis work reports three experimental case studies in which different analysis methods were chosen as appropriate on a case-by-case basis. This study demonstrates that total scattering combined with modelling and complementary experimental techniques can guide the understanding of the structure of complex nanostructures. X-ray and neutron total scattering data were collected on multi-walled carbon nanotubes continuously filled with iron and analysed using the program PDFgui for refinement of the pair distribution function and molecu...
Neutron scattering is an important research technique that has furnished a wealth of information ab...
The rapid growth of materials chemistry data, driven by advancements in large-scale radiation facili...
Nanoscale structural characterization is critical to understanding the physical underpinnings of pro...
Pair-distribution function (PDF) analysis of total neutron scattering data has proved tobe an indisp...
A fundamental computational methodology was investigated to extract quantitative local structure inf...
Engineering the next generation of materials, especially nanomaterials, requires a detailed understa...
In this thesis the results of neutron total scattering experiments on a series of molecular materi...
The identification and quantification of amorphous components and nanocrystalline phases with very ...
PhD ThesesThe orientations of chemical bonds and molecular groups are an important characteristic o...
In this dissertation, the possibility of using the quantum mechanics calculation in combination with...
The development of high-resolution imaging methods such as electron and scanning probe microscopy an...
Matter at the nanoscale exhibits peculiar properties, often not shown by the bulk counterpart, and s...
Small-angle scattering technique uses the scattering of radiation (e.g. neutrons or X-rays) at small...
Here it is demonstrated that multiple-energy, anomalous small angle X-ray scattering (ASAXS) provide...
The development of new functional nanomaterials builds on an understanding of the intricate relation...
Neutron scattering is an important research technique that has furnished a wealth of information ab...
The rapid growth of materials chemistry data, driven by advancements in large-scale radiation facili...
Nanoscale structural characterization is critical to understanding the physical underpinnings of pro...
Pair-distribution function (PDF) analysis of total neutron scattering data has proved tobe an indisp...
A fundamental computational methodology was investigated to extract quantitative local structure inf...
Engineering the next generation of materials, especially nanomaterials, requires a detailed understa...
In this thesis the results of neutron total scattering experiments on a series of molecular materi...
The identification and quantification of amorphous components and nanocrystalline phases with very ...
PhD ThesesThe orientations of chemical bonds and molecular groups are an important characteristic o...
In this dissertation, the possibility of using the quantum mechanics calculation in combination with...
The development of high-resolution imaging methods such as electron and scanning probe microscopy an...
Matter at the nanoscale exhibits peculiar properties, often not shown by the bulk counterpart, and s...
Small-angle scattering technique uses the scattering of radiation (e.g. neutrons or X-rays) at small...
Here it is demonstrated that multiple-energy, anomalous small angle X-ray scattering (ASAXS) provide...
The development of new functional nanomaterials builds on an understanding of the intricate relation...
Neutron scattering is an important research technique that has furnished a wealth of information ab...
The rapid growth of materials chemistry data, driven by advancements in large-scale radiation facili...
Nanoscale structural characterization is critical to understanding the physical underpinnings of pro...