54 research outputs found
Atomistic Insight into Ion Transport and Conductivity in Ga/Al-Substituted LiLaZrO Solid Electrolytes
Garnet-structured LiLaZrO is a promising solid electrolyte for next-generation solid-state Li batteries. However, sufficiently fast Li-ion mobility required for battery applications only emerges at high temperatures, upon a phase transition to cubic structure. A well-known strategy to stabilize the cubic phase at room temperature relies on aliovalent substitution; in particular, the substitution of Li by Al and Ga ions. Yet, despite having the same formal charge, Ga substitution yields higher conductivities (~S/cm) than Al (~S/cm). The reason of such difference in ionic conductivity remains a mystery. Here we use molecular dynamic simulations and advanced sampling techniques to precisely unveil the atomistic origin of this phenomenon. Our results show that Li vacancies generated by Al and Ga substitution remain adjacent to Ga and Al ions, without contributing to the promotion of Li mobility. However, while Ga ions tend to allow limited Li diffusion within their immediate surroundings, the less repulsive interactions associated with Al ions lead to a complete blockage of neighboring Li diffusion paths. This effect is magnified at lower temperatures, and explains the higher conductivities observed for Ga-substituted systems. Overall this study provides a valuable insight into the fundamental ion transport mechanism in the bulk of Ga/Al-substituted LiLaZrO and paves the way for rationalizing aliovalent substitution design strategies for enhancing ionic transport in these materials.ENE2016-81020-R (MINECO
An optoelectronic framework enabled by low-dimensional phase-change films.
Accepted author version. The definitive version was published in: Nature 511, 206–211 (10 July 2014) doi:10.1038/nature13487The development of materials whose refractive index can be optically transformed as desired, such as chalcogenide-based phase-change materials, has revolutionized the media and data storage industries by providing inexpensive, high-speed, portable and reliable platforms able to store vast quantities of data. Phase-change materials switch between two solid states--amorphous and crystalline--in response to a stimulus, such as heat, with an associated change in the physical properties of the material, including optical absorption, electrical conductance and Young's modulus. The initial applications of these materials (particularly the germanium antimony tellurium alloy Ge2Sb2Te5) exploited the reversible change in their optical properties in rewritable optical data storage technologies. More recently, the change in their electrical conductivity has also been extensively studied in the development of non-volatile phase-change memories. Here we show that by combining the optical and electronic property modulation of such materials, display and data visualization applications that go beyond data storage can be created. Using extremely thin phase-change materials and transparent conductors, we demonstrate electrically induced stable colour changes in both reflective and semi-transparent modes. Further, we show how a pixelated approach can be used in displays on both rigid and flexible films. This optoelectronic framework using low-dimensional phase-change materials has many likely applications, such as ultrafast, entirely solid-state displays with nanometre-scale pixels, semi-transparent 'smart' glasses, 'smart' contact lenses and artificial retina devices.Engineering and Physical Sciences Research Council (EPSRC)OUP John Fell Fun
The recording and characteristics of pulmonary rehabilitation in patients with COPD using The Health Information Network (THIN) primary care database
Pulmonary rehabilitation is recommended for patients with COPD to improve physical function, breathlessness and quality of life. Using The Health Information Network (THIN) primary care database in UK, we compared the demographic and clinical parameters of patients with COPD in relation to coding of pulmonary rehabilitation, and to investigate whether there is a survival benefit from pulmonary rehabilitation. We identified patients with COPD, diagnosed from 2004 and extracted information on demographics, pulmonary rehabilitation and clinical parameters using the relevant Read codes. Thirty six thousand one hundred and eighty nine patients diagnosed with COPD were included with a mean (SD) age of 67 (11) years, 53% were male and only 9.8% had a code related to either being assessed, referred, or completing pulmonary rehabilitation ever. Younger age at diagnosis, better socioeconomic status, worse dyspnoea score, current smoking, and higher comorbidities level are more likely to have a record of pulmonary rehabilitation. Of those with a recorded MRC of 3 or worse, only 2057 (21%) had a code of pulmonary rehabilitation. Survival analysis revealed that patients with coding for pulmonary rehabilitation were 22% (95% CI 0.69–0.88) less likely to die than those who had no coding. In UK THIN records, a substantial proportion of eligible patients with COPD have not had a coded pulmonary rehabilitation record. Survival was improved in those with PR record but coding for other COPD treatments were also better in this group. GP practices need to improve the coding for PR to highlight any unmet need locally
Tumor ovárico funcionante como causa de pubertad precoz
INTRODUCCIÓN
Los tumores ováricos de células de la granulosa son una causa poco fre-cuente de pubertad precoz periférica. La sospecha clínica es fundamen-tal, para establecer un diagnóstico y tratamiento precoces.
CASO CLÍNICO
Niña de 3 años que presenta dolor abdominal inespecífico, con perio-dicidad mensual, de 5 meses de evolución, coincidiendo con inicio dedesarrollo mamario,y sangrado vaginal oscuro escaso de 2 días de dura-ción. Exploración física: telarquia S2-S3, siendo el resto por aparatosanodina. Pruebas complementarias: hemograma y bioquímica normales;estudio hormonal con TSH,T4 Libre, prolactina,ACTH, DHEA-Sulfato ytestosterona normales; FSH 0,2 mU/ml, LH <0,1 mU/ml y estradiol 59pg/ml; marcadores tumorales con CA-125 elevado (70,6 U/ml), y CEAy AFP negativos; la ecografía abdominal muestra un útero con endome-trio prominente y una lesión en fosa ilíaca derecha de 6 x 3,5 cm depared gruesa, con vascularización y contenido quístico no homogéneo,dependiente de ovario derecho, y líquido libre en todos los espaciosabdominales; hallazgos que se confirman en la TC abdominal. Es trasla-dada al Servicio de Oncopediatría de referencia, diagnosticándosemediante biopsia un tumor de células de la granulosa dependiente deovario derecho.Al confirmarse el estadío Ia (clasificación FIGO), se rea-liza salpingo-ooforectomía unilateral curativa.
COMENTARIOS
Los tumores ováricos representan menos del 5% de los tumores infan-tiles, siendo el teratoma quístico (de estirpe germinal) el más frecuente.Los de células de la granulosa aparecen sólo en un 5% de los casos enedad prepuberal. Presentan casi siempre actividad hormonal, por lo quela mayoría de estos casos tiene signos de pubertad o pseudopubertadprecoz. Su carácter funcionante permite un diagnóstico precoz, la mayo-ría en estadío Ia (limitados al ovario). Las recurrencias son poco fre-cuentes, y la supervivencia de hasta el 95%, en relación con el estadío aldiagnóstico. La cirugía resulta curativa en la mayoría de los casos
Mechanical failure of garnet electrolytes during Li electrodeposition observed by in-operando microscopy
Metallic Li anodes are key to reaching high energy densities in next-generation solid-state batteries, however, major problems are the non-uniform deposition of Li at the interface and the penetrative power of Li metal during operation, which cause failure of the ceramic electrolyte, internal short-circuits and a premature end of battery life. In this work, we explore the anode-electrolyte interface instability of a Li metal-garnet electrolyte system during Li electrodeposition, and its implications for mechanical fracture, Li metal propagation, and electrolyte failure. The degradation mechanism was followed step-by-step during in-operando electrochemical cycling using optical and scanning electron microscopy. High amounts of Li electrodeposition in a localized zone of the interface lead to ceramic fracture followed by an electrode-to-electrode electrical connection via a conductor Li metal filament. This work enables deeper understanding of battery failure modes in all-solid-state batteries containing a ceramic electrolyte membrane
Investigating the dendritic growth during full cell cycling of garnet electrolyte in direct contact with Li metal.
All-solid-state batteries including a garnet ceramic as electrolyte are potential candidates to replace the currently used Li-ion technology, as they offer safer operation and higher energy storage performances. However, the development of ceramic electrolyte batteries faces several challenges at the electrode/electrolyte interfaces, which need to withstand high current densities to enable competing C-rates. In this work, we investigate the limits of the anode/electrolyte interface in a full cell that includes a Li-metal anode, LiFePO4 cathode, and garnet ceramic electrolyte. The addition of a liquid interfacial layer between the cathode and the ceramic electrolyte is found to be a prerequisite to achieve low interfacial resistance and to enable full use of the active material contained in the porous electrode. Reproducible and constant discharge capacities are extracted from the cathode active material during the first 20 cycles, revealing high efficiency of the garnet as electrolyte and the interfaces, but prolonged cycling leads to abrupt cell failure. By using a combination of structural and chemical characterization techniques, such as SEM and solid-state NMR, as well as electrochemical and impedance spectroscopy, it is demonstrated that a sudden impedance drop occurs in the cell due to the formation of metallic Li and its propagation within the ceramic electrolyte. This degradation process is originated at the interface between the Li-metal anode and the ceramic electrolyte layer and leads to electromechanical failure and cell short-circuit. Improvement of the performances is observed when cycling the full cell at 55 °C, as the Li-metal softening favors the interfacial contact. Various degradation mechanisms are proposed to explain this behavior
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