J. C. R. E. Oliveira scite author profile

We investigate the presence of defect structures in generalized models described by real scalar field in (1, 1) space-time dimensions. We work with two distinct generalizations, one in the form of a product of functions of the field and its derivative, and the other as a sum. We search for static solutions and study the corresponding linear stability on general grounds. We illustrate the results with several examples, where we find stable defect structures of modified profile. In particular, we show how the new defect solutions may give rise to evolutions not present in the standard scenario in higher spatial dimensions.

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Novel Li₃ClO based glasses with superionic properties for lithium batteries

Braga

et al. 2014

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Three types of next generation batteries are currently being envisaged among the international community: metal-air batteries, multivalent cation batteries and all-solid-state batteries. These battery designs require high-performance, safe and cost effective electrolytes that are compatible with optimized electrode materials. Solid electrolytes have not yet been extensively employed in commercial batteries as they suffer from poor ionic conduction at acceptable temperatures and insufficient stability with respect to lithium-metal. Here we show a novel type of glasses, which evolve from an antiperovskite structure and that show the highest ionic conductivity ever reported for the Li-ion (25 mS cm À1 at 25 C). These glassy electrolytes for lithium batteries are inexpensive, light, recyclable, non-flammable and non-toxic.Moreover, they present a wide electrochemical window (higher than 8 V) and thermal stability within the application range of temperatures.

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Cosmological evolution of domain wall networks

2005

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We have studied the cosmological evolution of domain wall networks in two, three and four spatial dimensions using high-resolution field theory simulations. The dynamical range and number of our simulations is larger than in previous works, but does not allow us to exclude previous hints of deviations to the naively expected scale-invariant evolution. These results therefore suggest that the approach of domain wall networks to linear scaling is a much slower process than that of cosmic strings, which has been previously characterized in detail.

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J. C. R. E. Oliveira

Generalized global defect solutions

Novel Li₃ClO based glasses with superionic properties for lithium batteries

Cosmological evolution of domain wall networks

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J. C. R. E. Oliveira

Generalized global defect solutions

Novel Li3ClO based glasses with superionic properties for lithium batteries

Cosmological evolution of domain wall networks

Contact Info

Product

Resources

About

Novel Li₃ClO based glasses with superionic properties for lithium batteries