Progress in power electronic devices is currently accepted through the use of wide bandgap
materials (WBG). Among them, diamond is the material with the most promising …

Diamond is known as the ultimate semiconductor material for electric devices with excellent
properties such as an ultra-wide bandgap (5.47 eV), high carrier mobility (electron mobility …

Supercapacitors supply high power densities but suffer from low energy densities and small
specific capacitances. The design and implementation of unique capacitor electrodes are …

Graphite was formed by in-situ structural conversion from sp 3 to sp 2 hybridized carbon via
KrF excimer. The surface morphology of diamond was changed to nanoparticles after laser …

Diamond is an important material for electrical and electronic devices. Because the diamond
is in contact with the metal in these applications, it becomes necessary to study the metal …

Key factors in C 1s photoelectron spectroscopy for realistic samples of single crystal
diamonds are remarked. Basic equations for angle-dependent photoelectron spectroscopy …

Diamond surface properties show a strong dependence on its chemical termination.
Hydrogen-terminated and oxygen-terminated diamonds are the most studied terminations …

While the phonon-drag effect can induce large Seebeck coefficients, it is associated with
large mean free path phonons present in the vicinity of the maximum in temperature of the …

Refractory metals (titanium, molybdenum, and zirconium) with a gold overlayer were used to
form ohmic contacts on {113}-oriented boron doped diamond epitaxial layers (boron …

Concerning diamond-based electronic devices, the H-terminated diamond surface is one of
the most used terminations as it can be obtained directly by using H2 plasma, which also is …