All-solid-state batteries using flame-retardant inorganic solid electrolytes are expected to be the next-generation batteries for electric vehicles (EVs) owing to their high safety and output ...

Solid state chemistry encompasses the synthesis, characterisation and engineering of materials where the arrangement of atoms, ions or molecules in a rigid, three‐dimensional network governs their ...

Solid-state batteries promise safer energy storage and faster charging than today’s lithium-ion cells, but a persistent ...

Ion exchange is a powerful technique for converting one material to another when synthesizing new products. In this process, scientists know what reactants lead to what products, but how the process ...

Solid-state lithium batteries are widely regarded as the future of safe and high-energy energy storage systems, yet their development depends critically on advanced electrolyte materials. Recent ...

Solid-state sodium batteries use sodium, a more abundant and accessible resource compared to lithium. Sodium is primarily derived from sodium chloride, which is abundant in seawater and readily ...

Quantum dots are composed of semiconducting materials like cadmium selenide (CdSe) or indium arsenide (InAs) and can be synthesized through various methods. For instance, colloidal synthesis and ...