Investigations on the characterization of ion implanted hexagonal boron nitride

Aradi, Emily; Naidoo, S.R.; Erasmus, Rudolph M.; Julies, B.; Derry, T.E.

doi:10.1016/j.nimb.2012.12.118

Cited by 13 publications

(12 citation statements)

References 12 publications

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“…Hardness testing of the implanted BN samples was carried out using the FM-700 micro- Cubic BN with nanoscale particles tends to show the LO phonon modes [4,[7][8], shifted to lower energies, as we see here after implantation as broad peaks around 1300 cm -1 ; this peak indicates a phase change to cubic-BN, as reported in detail before [1][2][3][4][5].…”

Section: Micro-indentationsupporting

confidence: 69%

“…Cubic BN is synthesized in industrial quantities under pressure, but it has been shown that the implantation of light ions into h-BN can trigger a phase change to c-BN, which forms a thin layer of nanoparticles (9nm) within the implanted region. From Raman, X-ray and infrared analyses [1][2][3][4][5] there is an optimum ion fluence for He + , Li + , B + and N + which decreases as the ion mass increases. The creation of interstitial defects is thought to tip the structure from hexagonal layers to the tetrahedral cubic form.…”

Section: Accepted Manuscriptmentioning

confidence: 99%

“…Raman spectroscopy was used to analyse the samples to confirm any ion induced phase change reported in [1][2][3][4][5]. This was done by taking Raman measurements (the 514.5nm…”

Section: Raman Characterizationmentioning

confidence: 99%

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Allotrope conversion and surface hardness increase in ion implanted boron nitride

Derry

Lisema

Magabe

et al. 2018

Surface and Coatings Technology

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Previously, it has been shown that the implantation of hexagonal boron nitride with light ions (e.g. He + , Li + , B +) produces a surface layer containing nanoparticles of the much harder cubic form, as revealed by Raman spectroscopy, X-ray diffraction and electron microscopy. The present study shows that the irradiated layer is measurably harder when interrogated by micro-indentation which probes a layer comparable to the ion range. The hardness value increases reproducibly with the ion fluence, confirming that the latter is responsible for it. There are possible implications for the surface hardening of BN components after they have been configured in the easily machinable hexagonal form. Some aspects of the hardening mechanism are discussed.

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Section: Micro-indentationsupporting

confidence: 69%

Section: Accepted Manuscriptmentioning

confidence: 99%

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Allotrope conversion and surface hardness increase in ion implanted boron nitride

Derry

Lisema

Magabe

et al. 2018

Surface and Coatings Technology

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“…Three different samples have been used in a previous work (12,13) including polycrystalline rods, polycrystalline sheets and single-crystal h-BN samples. *Corresponding author.…”

Section: Introductionmentioning

confidence: 99%

Raman studies on the effect of multiple-energy ion implantation on single-crystal hexagonal boron nitride

Aradi

Naidoo

Erasmus

et al. 2014

Radiation Effects and Defects in Solids

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Single energy ion implantation of hexagonal boron nitride (h-BN) at various fluences and keV energies has shown that there is a change in the local symmetry of the crystal from hexagonal to the cubic (c-BN) symmetry. These conclusions have been primarily based on Raman scattering (RS) and Fourier transform infrared spectroscopy. Transmission electron microscopy (TEM) analyses have been a challenge because the sample preparation for cross-sectional study of both the polycrystalline substrates and single-crystal material used in the study presented problems that were difficult to circumvent. A multiple-energy implant with different fluence fractions has been used to create a uniform implanted layer in the material from the surface to the end of range of the implant in this study. We report on the initial RS studies on these samples.

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“…Raman measurements under similar conditions of temperature and energy for different fluences have been reported in [37], [44]. The Raman lineshape and position for c-BN will vary depending of the size of the crystals being analysed.…”

Section: Haadf-stem and Hrtemmentioning

confidence: 73%

Cross-sectional transmission electron microscopy studies of boron ion implantation in hexagonal boron nitride

Aradi

Naidoo

Cummings

et al. 2019

Diamond and Related Materials

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We have reported on the implantation of boron ioninto hexagonal boron nitride (h-BN) material to aid the nucleation ofcubic boron nitride nanocrystals (nc-BN).Single crystal h-BN was implanted with boron ion at 150 keVat fluences of the order of 10 15 and10 17 ions/cm 2 at room temperature.High Angle Annular Dark-Field Scanning Transmission Electron Microscopy (HAADF-STEM) mapping showed a variation inimage contrast in samples irradiated to a fluence of 1×10 15 ions/cm 2. As predicted by Stopping Range and Ions in Materials (SRIM) calculations, the implanted region with the highest damage density appeared to have a bright contrast in HAADF-STEM which represented the high density c-BN symmetry. High Resolution Transmission Electron Microscopy (HRTEM) and electron diffraction measurements showed regions with nc-BN for samples implanted with low fluences and amorphous BN after implantation with high fluences indicating a fluence-related phase transition in BN. Raman spectroscopy showed the emergence of longitudinal optical frequency mode associated withc-BN after implantation.

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Investigations on the characterization of ion implanted hexagonal boron nitride

Cited by 13 publications

References 12 publications

Allotrope conversion and surface hardness increase in ion implanted boron nitride

Allotrope conversion and surface hardness increase in ion implanted boron nitride

Raman studies on the effect of multiple-energy ion implantation on single-crystal hexagonal boron nitride

Cross-sectional transmission electron microscopy studies of boron ion implantation in hexagonal boron nitride

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