Diamond materials at different nanoscales provide them various characteristics such as
elastic mechanical properties in needle‐like nanotips, flexibility of 2D films having atomic …

Vertically aligned nanographite structures, the so-called carbon nanowalls (CNWs), are
decorated with ultrananocrystalline diamond particles by an electrostatic self-assembly …

Electrically conducting vertically aligned boron-doped diamond (BDD) nanostructures are
fabricated from BDD films by reactive ion etching (RIE) using Au masks. Two different …

In this study, diamond films were synthesized on silicon substrates by microwave plasma
enhanced chemical vapor deposition (CVD) over a wide range of experimental parameters …

Diamond has an ultrawide bandgap with excellent physical properties, such as high critical
electric field, excellent thermal conductivity, high carrier mobility, etc. Diamond with a …

Lower turn-on field (E TO) and threshold field (E THR), as well as a higher current density,
are desired characteristics of materials and structures for field emission (FE) applications. In …

Herein, we present a straightforward and cost-effective procedure for producing conductive
diamond tubes on the surface of porous carbon nanotube hollow fibers using successive 10 …

Non-contact and non-destructive electrical conductivity measurements of nitrogen doped
nano-crystalline diamond films have been demonstrated using a microwave cavity …

Abstract One-dimensional (1D) nanomaterials especially nanowires and nanorods have
been attracted very much in both academia and industry because of their potential diverse …

Low turn-on fields (Eto) and high current emission stabilities are recognized as two crucial
factors for the potential applications of field emission (FE) cathodes. In this work …