Implantation conditions for diamond nanocrystal formation in amorphous silica

Abstract: We present a study of carbon ion implantation in amorphous silica, which, followed by annealing in a hydrogen-rich environment, leads to preferential formation of carbon nanocrystals with cubic diamond (c-diamond), face-centered cubic (n-diamond), or simple cubic (i-carbon) carbon crystal lattices. Two different annealing treatments were used: furnace annealing for 1 h and rapid thermal annealing for a brief period, which enables monitoring of early nucleation events. The influence of implanted dose and anneal… Show more

“…Typical (111), (220), and (311) diffraction rings for diamond are observed from the SAD patterns of UNCD/Si-NN 1 and UNCD/Si-NN 2 (Figure c, d). It is interesting to note that forbidden reflection rings corresponds to (200) of c-diamond is observed only for UNCD/Si-NN 1 (Figure c), which is an identification mark for n-diamond grains that exist usually with size of about 5-13 nm. − Such a SAD pattern is typically observed for the UNCD grown in CH 4 /Ar medium, which has not gained much attention and their origin from energetic species has not been clearly explained yet. , …”

Preferentially Grown Ultranano c-Diamond and n-Diamond Grains on Silicon Nanoneedles from Energetic Species with Enhanced Field-Emission Properties

“…Typical (111), (220), and (311) diffraction rings for diamond are observed from the SAD patterns of UNCD/Si-NN 1 and UNCD/Si-NN 2 (Figure c, d). It is interesting to note that forbidden reflection rings corresponds to (200) of c-diamond is observed only for UNCD/Si-NN 1 (Figure c), which is an identification mark for n-diamond grains that exist usually with size of about 5-13 nm. − Such a SAD pattern is typically observed for the UNCD grown in CH 4 /Ar medium, which has not gained much attention and their origin from energetic species has not been clearly explained yet. , …”

Preferentially Grown Ultranano c-Diamond and n-Diamond Grains on Silicon Nanoneedles from Energetic Species with Enhanced Field-Emission Properties

Effect of nitrogen addition on hydrogen incorporation in diamond nanorod thin films