Optical and electronic spin properties of fluorescent micro- and nanodiamonds upon prolonged ultrahigh-temperature annealing

Abstract: High-temperature annealing is a promising but still mainly unexplored method for enhancing spin properties of negatively charged nitrogen-vacancy (NV) centers in diamond particles. After high-energy irradiation, the formation of NV centers in diamond particles is typically accomplished via annealing at temperatures in the range of 800–900 °C for 1–2 h to promote vacancy diffusion. Here, we investigate the effects of conventional annealing (900 °C for 2 h) against annealing at a much higher temperature of 1600 … Show more

“…A rich variety of new carbon nanostructures have been reported, such as diamond, diamond-like phases (DLP), nanodiamonds, cubic carbon, and diamond particles to name a few. Such structures possess unique optical, mechanical, and physical properties [ 1 , 2 , 3 , 4 , 5 , 6 ]. Among them are cubic carbon BC12 [ 3 ], which can be used as a semiconductor; body-centered cubic BC8 carbon [ 7 , 8 ]; simple cubic carbon phase-termed SC24 [ 9 ]; and an O16 superhard phase [ 10 ].…”

An Overview of Mechanical Properties of Diamond-like Phases under Tension

“…A rich variety of new carbon nanostructures have been reported, such as diamond, diamond-like phases (DLP), nanodiamonds, cubic carbon, and diamond particles to name a few. Such structures possess unique optical, mechanical, and physical properties [ 1 , 2 , 3 , 4 , 5 , 6 ]. Among them are cubic carbon BC12 [ 3 ], which can be used as a semiconductor; body-centered cubic BC8 carbon [ 7 , 8 ]; simple cubic carbon phase-termed SC24 [ 9 ]; and an O16 superhard phase [ 10 ].…”

An Overview of Mechanical Properties of Diamond-like Phases under Tension

Localized and extended collective optical phonon modes in regular and random arrays of contacting nanoparticles: Escape from phonon confinement

Temperature dependence of charge conversion during NV-center relaxometry in nanodiamond