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Lightweight complex metal hydrides for Li-, Na-, and Mg-based batteries
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Energy density and safety are main factors governing rechargeable battery technology development. Solid-state electrolytes (SSEs) that enable stable and reliable operation of all-solid-state Li-, Na-, and Mg-based batteries and improved capacity are highly desired. Lightweight complex metal hydrides are one of the most promising electrolyte materials for future electrochemical storage devices because of extraordinary ionic conductivities and, in some cases, electrochemical properties that enable battery reversibility. This paper overviews lightweight hydride-based materials for electrolytes and/or anodes in mono-/divalent batteries. https://doi.org/10.1557/jmr.2019.82
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Energy storage for large grid scale has been the “holy grail” for the energy materials research community. High-rate lithium-ion batteries with ultra-long cycling lives (> 10,000 cycles) can provide electricity grid stabilization services in the presence of large fractions of intermittent generators, such as photovoltaics.
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Nanotechnologies and nanosciences in materials can enable better solubilization, and consequently, better nutrient availability for plants, from fertilizers for instance, in a synchronized way, avoiding losses to the environment. The increase of agricultural production in a sustainable scenario is within reach if these nonconventional materials are systematically studied.
A generalized approach for selecting solar-energy system configurations for a wide range of applications
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MRS Journal Highlights. MRS Bulletin 44, 671–672 (2019). https://doi.org/10.1557/mrs.2019.219
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DOI: https://doi.org/10.1557/mrs.2019.219