Molten-salt synthesis (MSS) method becomes an excellent bottom-up synthesis technique of
nanomaterials with various chemical compositions and morphologies because of its …

The growing demand of advanced electrochemical energy storage devices for various
applications, including portable electronic products, electric vehicles, and large-scale …

Materials synthesis in the liquid phase, or wet-chemical synthesis, utilizes a solution medium
in which the target materials are generated from a series of chemical and physical …

Abstract 2D materials have demonstrated good chemical, optical, electrical, and magnetic
characteristics, and offer great potential in numerous applications. Corresponding synthesis …

A low temperature molten salt process is developed to prepare crystalline Si nanoparticles
through the reduction of micro-sized high silicon zeolite by metallic Al (or Mg) in molten …

Germanium‐based nanomaterials have emerged as important candidates for next‐
generation energy‐storage devices owing to their unique chemical and physical properties …

Efficient synthetic routes are continuously pursued for graphene in order to implement its
applications in different areas. However, direct conversion of simple monomers to graphene …

A mild phosphorization process in low‐temperature molten salt (NaCl‐KCl‐AlCl3) has been
developed to synthesize peapod‐like CoP@ C nanostructures by using low‐toxicity …

For 25 years, Chemistry of Materials has been clearly providing a key forum to chemists,
physicists, and engineers interested in materials preparation and characterization, in the …

Hollow nanostructures are attractive for energy storage and conversion, drug delivery, and
catalysis applications. Although these hollow nanostructures of compounds can be …