Kwon, S. Joon Park, Jae-Gwan 2024-01-21T00:31:55Z 2024-01-21T00:31:55Z 2021-08-31 2007-09-26 0953-8984 https://pubs.kist.re.kr/handle/201004/134099 We report on a theoretical analysis of the graphitization of a nanosize diamond (nanodiamond) in the metastable state. A nanodiamond annealed at a relatively lower temperature suffers morphological transition into a nanodiamond-graphite core-shell structure. Thermodynamic stability analysis of the nanodiamond showed that the phase diagram (relationship between the annealing temperature and radius) of the nanodiamond-graphite has three regimes: smaller nanodiamond, nanodiamond-graphite, and larger nanodiamond. These regimes of nanodiamond-graphite are due to an additional phase boundary from finding the maximum size of the nanodiamond which can be graphitized. In the theoretical analysis, the most probable and the maximum volume fractions of graphite in the nanodiamond were 0.76 and 0.84 respectively, which were independent of the annealing temperature and the initial radius of the nanodiamond. Therefore, the nanodiamond is not completely transformed into graphite by simple annealing at relatively lower process temperature and pressure. The highest graphitization probability decreased with increasing annealing temperature. Raman spectra for the F-2g vibration mode of nanodiamond were also calculated, and we found that the variation in properties of the spectral line was strongly dependent on the graphitization temperature and the initial size of the nanodiamond. English IOP PUBLISHING LTD HYDROTHERMAL TREATMENT RAMAN-SCATTERING DIAMOND CARBON REDUCTION KINETICS SILICON GROWTH POWDER FILMS Theoretical analysis of the graphitization of a nanodiamond Article 10.1088/0953-8984/19/38/386215 1 JOURNAL OF PHYSICS-CONDENSED MATTER, v.19, no.38 JOURNAL OF PHYSICS-CONDENSED MATTER 19 38 scie scopus 000249255400017 2-s2.0-34548454514 Physics, Condensed Matter Physics Article HYDROTHERMAL TREATMENT RAMAN-SCATTERING DIAMOND CARBON REDUCTION KINETICS SILICON GROWTH POWDER FILMS nanodiamond graphitization phase diagram raman spectra theoretical analysis