Add to ORKGAccurate statistical characterization of nanomaterials is crucial for their use in emerging technologies. This work investigates how different structural characteristics of metal nanoparticles influence the line profiles of the corresponding powder diffraction pattern. The effects of crystallite size, shape, lattice dynamics, and surface strain are all systematically studied in terms of their impact on the line profiles. The studied patterns are simulated from atomistic models of nanoparticles via the Debye function. This approach allows for the existing theories of diffraction to be tested, and extended, in an effort to improve the characterization of small crystallites. It also begins to allow for the incorporation of atomistic simulati...
none7noFaulted face-centred cubic platinum nanocrystals, grown within a nanoporous silica matrix, ha...
The shape of nanoparticles can be important in defining their properties. Establishing the exact sha...
The defect structure of bimetallic nanoparticles differs from that of particles made of a single ato...
Accurate statistical characterization of nanomaterials is crucial for their use in emerging technolo...
To my parents, for all of their support and encouragement. iii PREFACE Another thesis has also been ...
Peak profiles in X-ray Diffraction (XRD) patterns from nanocrystalline materials are affected by sta...
Atomistic simulations based on Molecular Dynamics (MD) were used to model the lattice distortions in...
The ability of tailoring the dimensional regime of nanoparticle ensembles represents a landmark achi...
Atomistic simulations are employed in this thesis to investigate defect nucleation and free volume o...
Nearly identical Pd nanocubes yield an x-ray powder diffraction pattern with interference fringes af...
This review examines the physical reasons why nanoparticles differ in structure from the bulk. Certa...
The goal of this work is to demonstrate the capabilities of benchtop Bragg diffraction in characteri...
Three years after the publication of the book “Analisi di materiali policristallini mediante tecnich...
The shape of nanoparticles can be important in defining their properties. Establishing the exact sha...
Quantifying the statistical uncertainty in diffracted intensities was first investigated by Alexande...
none7noFaulted face-centred cubic platinum nanocrystals, grown within a nanoporous silica matrix, ha...
The shape of nanoparticles can be important in defining their properties. Establishing the exact sha...
The defect structure of bimetallic nanoparticles differs from that of particles made of a single ato...
Accurate statistical characterization of nanomaterials is crucial for their use in emerging technolo...
To my parents, for all of their support and encouragement. iii PREFACE Another thesis has also been ...
Peak profiles in X-ray Diffraction (XRD) patterns from nanocrystalline materials are affected by sta...
Atomistic simulations based on Molecular Dynamics (MD) were used to model the lattice distortions in...
The ability of tailoring the dimensional regime of nanoparticle ensembles represents a landmark achi...
Atomistic simulations are employed in this thesis to investigate defect nucleation and free volume o...
Nearly identical Pd nanocubes yield an x-ray powder diffraction pattern with interference fringes af...
This review examines the physical reasons why nanoparticles differ in structure from the bulk. Certa...
The goal of this work is to demonstrate the capabilities of benchtop Bragg diffraction in characteri...
Three years after the publication of the book “Analisi di materiali policristallini mediante tecnich...
The shape of nanoparticles can be important in defining their properties. Establishing the exact sha...
Quantifying the statistical uncertainty in diffracted intensities was first investigated by Alexande...
none7noFaulted face-centred cubic platinum nanocrystals, grown within a nanoporous silica matrix, ha...
The shape of nanoparticles can be important in defining their properties. Establishing the exact sha...
The defect structure of bimetallic nanoparticles differs from that of particles made of a single ato...