19 research outputs found
Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging
Defects and their interactions in crystalline solids often underpin material
properties and functionality as they are decisive for stability, result in
enhanced diffusion, and act as a reservoir of vacancies. Recently, lithium-rich
layered oxides have emerged among the leading candidates for the
next-generation energy storage cathode material, delivering 50 % excess
capacity over commercially used compounds. Oxygen-redox reactions are believed
to be responsible for the excess capacity, however, voltage fading has
prevented commercialization of these new materials. Despite extensive research
the understanding of the mechanisms underpinning oxygen-redox reactions and
voltage fade remain incomplete. Here, using operando three-dimensional Bragg
coherent diffractive imaging, we directly observe nucleation of a mobile
dislocation network in nanoparticles of lithium-rich layered oxide material.
Surprisingly, we find that dislocations form more readily in the lithium-rich
layered oxide material as compared with a conventional layered oxide material,
suggesting a link between the defects and the anomalously high capacity in
lithium-rich layered oxides. The formation of a network of partial dislocations
dramatically alters the local lithium environment and contributes to the
voltage fade. Based on our findings we design and demonstrate a method to
recover the original high voltage functionality. Our findings reveal that the
voltage fade in lithium-rich layered oxides is reversible and call for new
paradigms for improved design of oxygen-redox active materials
Palearctic predator invades North American Great Lakes
Bythotrephes cederstroemii Schoedler, a predatory freshwater zooplankter (Crustacea: Cladocera), was first found in the Laurentian Great Lakes in December 1984. The first individuals were from Lake Huron, followed in 1985 with records from Lakes Erie and Ontario. By late August, 1986 the species had spread to southern Lake Michigan (43°N). Bythotrephes has not previously been reported from North America, but has been restricted to a northern and central Palearctic distribution. Its dramatic and widespread rise in abundance in Lake Michigan was greatest in offshore regions. Bythotrephes appears to be invading aggressively, but avoiding habitats presently occupied by glacio-marine relict species that became established in deep oligotrophic North American lakes after the Wisconsin glaciation. Because it is a voracious predator its invasion may lead to alterations in the native zooplankton fauna of the Great Lakes. It offers the chance to study how invading plankton species join an existing community. Judging from its persistence and success in deep European lakes, Bythotrephes may now become a permanent member of zooplankton communities in the Nearctic.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/47771/1/442_2004_Article_BF00378947.pd
Unravelling the structural rearrangement of polymer colloidal crystals under dry sintering conditions
\u3cp\u3eThe structural rearrangement of polystyrene colloidal crystals under dry sintering conditions has been revealed by in situ grazing incidence X-ray scattering. The measured diffraction patterns were analysed using distorted wave Born approximation (DWBA) theory and the structural parameters of the as-grown colloidal crystals of three different particle sizes were determined for the in-plane and out-of-plane directions in a film. By analysing the temperature evolution of the diffraction peak positions, integrated intensities, and widths, the detailed scenario of the structural rearrangement of crystalline domains at the nanoscale has been revealed, including thermal expansion, particle shape transformation and crystal amorphisation. Based on DWBA analysis, we demonstrate that in the process of dry sintering, the shape of colloidal particles in a crystal transforms from a sphere to a polyhedron. Our results deepen the understanding of the thermal annealing of polymer colloidal crystals as an efficient route for the design of new nano-materials.\u3c/p\u3
Revealing three-dimensional structure of an individual colloidal crystal grain by coherent X-Ray diffractive imaging
\u3cp\u3eWe present results of a coherent x-ray diffractive imaging experiment performed on a single colloidal crystal grain. The full three-dimensional (3D) reciprocal space map measured by an azimuthal rotational scan contained several orders of Bragg reflections together with the coherent interference signal between them. Applying the iterative phase retrieval approach, the 3D structure of the crystal grain was reconstructed and positions of individual colloidal particles were resolved. As a result, an exact stacking sequence of hexagonal close-packed layers including planar and linear defects were identified.\u3c/p\u3
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Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging
Defects and their interactions in crystalline solids often underpin material
properties and functionality as they are decisive for stability, result in
enhanced diffusion, and act as a reservoir of vacancies. Recently, lithium-rich
layered oxides have emerged among the leading candidates for the
next-generation energy storage cathode material, delivering 50 % excess
capacity over commercially used compounds. Oxygen-redox reactions are believed
to be responsible for the excess capacity, however, voltage fading has
prevented commercialization of these new materials. Despite extensive research
the understanding of the mechanisms underpinning oxygen-redox reactions and
voltage fade remain incomplete. Here, using operando three-dimensional Bragg
coherent diffractive imaging, we directly observe nucleation of a mobile
dislocation network in nanoparticles of lithium-rich layered oxide material.
Surprisingly, we find that dislocations form more readily in the lithium-rich
layered oxide material as compared with a conventional layered oxide material,
suggesting a link between the defects and the anomalously high capacity in
lithium-rich layered oxides. The formation of a network of partial dislocations
dramatically alters the local lithium environment and contributes to the
voltage fade. Based on our findings we design and demonstrate a method to
recover the original high voltage functionality. Our findings reveal that the
voltage fade in lithium-rich layered oxides is reversible and call for new
paradigms for improved design of oxygen-redox active materials
Selected Synchrotron Radiation Techniques
International audienceSynchrotron radiation is produced when highly energetic charged particles are deviated in a magnetic field. The generated spectrum consists of a large energy range from infrared to gamma X-rays. Harder X-ray ranges require larger synchrotron storage rings. Recent rings offer simultaneously energy tunability for photons with high brightness, high photon fluxes, and low divergence [1]. Photon energy tunability and variable polarization provide chemical, electronic structure and/or magnetic sensitivity. The tunable penetration depth using glancing incident and/or exit scattering angles enables the study of buried interfaces. Importantly, X-ray techniques, especially at high photon energies, can be used with various sample environments including (and not limited to) high pressure, ..