Nanoparticles (NPs) are commonly defined as particles with size< 100 nm and are currently
of considerable technological and academic interest, since they are often the starting …

Nanomaterials (NMs) with unique structures and compositions can give rise to exotic
physicochemical properties and applications. Despite the advancement in solution-based …

Nanoparticles exist far from the equilibrium state due to their high surface energy.
Nanoparticles are therefore extremely unstable and easily change themselves or react with …

Exciting new opportunities are emerging in the field of catalysis on the basis of the controlled
integration of ultrafine metal nanoparticles (UMNPs) and high-surface-area materials …

Metal–organic frameworks (MOF) have attracted great potential in sonodynamic therapy
(SDT) owing to large sonosensitizers' loading and fast reactive oxygen species'(ROS) …

Silica materials are used in a wide range of applications such as catalysis, photocatalysis,
CO2 capture, and environmental remediation. These nanomaterials (NMs) have been …

Catalytic deactivation due to agglomeration and metal particle growth has motivated the
researchers around the globe to encapsulate the active metal particles into protective shells …

This comprehensive critical review combines, for the first time, recent advances in nanoscale
surface chemistry, surface science, DFT, adsorption calorimetry, and in situ XRD and TEM to …

Catalysis, as a key and enabling technology, plays an increasingly important role in fields
ranging from energy, environment and agriculture to health care. Rational design and …

A series of ordered mesoporous Ni–Ce–Al composite oxides with various cerium contents
were synthesized via a one-pot route: evaporation-induced self-assembly (EISA) strategy …