Sustainable and cost‐effective energy generation has become crucial for fulfilling present
energy requirements. For this purpose, the development of cheap, scalable, efficient, and …

Recent years have seen a rapid growth of interest by the scientific and engineering
communities in the thermal properties of materials. Heat removal has become a crucial issue …

The implementation of 5G-and-beyond networks requires faster, high-performance, and
power-efficient semiconductor devices, which are only possible with materials that can …

Diamond properties are significantly affected by crystallite size. High surface to volume
fractions result in enhanced disorder, sp 2 bonding, hydrogen content and scattering of …

We have studied the thermal conductance of tilt grain boundaries in graphene using
nonequilibrium molecular dynamics simulations. When a constant heat flux is allowed to …

A theoretical model for describing effective thermal conductivity (ETC) of nanocrystalline
materials has been proposed, so that the ETC can be easily obtained from its grain size …

Detonation nanodiamonds (NDs) are emerging as delivery vehicles for small chemical
drugs and macromolecular biotechnology products due to their primary particle size of 4 to 5 …

Outstanding mechanical and optical properties of diamond nanoparticles in combination
with their biocompatibility have recently attracted much attention. Modification of the surface …

The ultrawide bandgap (UWBG)(~ 4.8 eV) and melt-grown substrate availability of β-Ga 2 O
3 give promise to the development of next-generation power electronic devices with …

The growth and characteristics of nanocrystalline diamond thin films with thicknesses from
20 nm to less than 5 µm are reviewed. These materials contain between 95% and> 99.9 …