Effects of additive NaN3 on the HPHT synthesis of large single crystal diamond grown by TGM

Guo-Feng, Huang; Jia, Xiaopeng; Li, Shangsheng; Hu, Meihua; Li, Yong; Zhao, Ming; Bi, Yan; Ma, Hongan

doi:10.1007/s11433-010-4129-4

Cited by 9 publications

(5 citation statements)

References 19 publications

(15 reference statements)

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“…C N , in A-center form, is determined by an absorption coefficient of 1282 cm −1 which multiplies the absorption factor (16.5 atomic ppm per cm −1 ) after the IR spectrum is decomposed into two individual components according to the procedure described in Refs. [18] and [19]. C N , in C-center form, is obtained from an absorption coefficient of 1130 cm −1 , namely, 25.0 atomic ppm per cm −1 .…”

Section: Resultsmentioning

confidence: 99%

Evolution of nitrogen structure in N-doped diamond crystal after high pressure and high temperature annealing treatment

Zheng

Guo-Feng

et al. 2014

Chinese Phys. B

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Section: Resultsmentioning

confidence: 99%

Evolution of nitrogen structure in N-doped diamond crystal after high pressure and high temperature annealing treatment

Zheng

Guo-Feng

et al. 2014

Chinese Phys. B

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“…The concentrations of nitrogen in the form of A-center (N A ) and C-center (N C ) were calculated from the absorption coefficient which were multiplied by converting factor of 16.5 ppm/(cm -1 ) and 25 ppm/(cm -1 ) at 1282 cm -1 and 1130 cm -1 , respectively , after the spectra decomposed into two individual components using the procedure described in Ref. [7]. The calculation results with uncertainties around 5 % are shown in Table 1.…”

Section: Resultsmentioning

confidence: 99%

“…[wt%] In Table 1, it is demonstrated that, with increasing the content of additive P 3 N 5 , the concentrations of nitrogen in the form of C-center and A-center are both gradually increased, and the highest value of total nitrogen concentration can approach 2186 ppm, which is the much higher than those specimens doped with other nitride additive [7][8][9]. This result might be attributed to phosphorus decomposed from P 3 N 5 entering diamond lattice.…”

Section: Resultsmentioning

confidence: 99%

“…Previously, it was reported that the highest concentration of nitrogen in diamond crystals grown by TGM could reach 1671-1742 ppm with NaN 3 as an additive [7]. In order to synthesize diamond crystals containing higher nitrogen concentration, in this literature, a new kind of additive P 3 N 5 was employed as the doping agent to grow diamonds by TGM.…”

Section: Introductionmentioning

confidence: 99%

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Doping of Diamond Crystals with a Dopant of P<sub>3</sub>N<sub>5</sub>

Zheng

2012

AMM

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In this paper, a new dopant of P3N5 (phosphorus nitride) was doped into the diamond growth cell to grow diamond crystals by temperature gradient growth method (TGM) under high pressure and high temperature (HPHT). The experiments were performed at a fixed pressure of about 6.0 GPa and temperatures of 1600-1650 K. The gained diamond crystals were characterized by infrared (IR) absorption spectroscopy, micro-Raman spectroscopy and X-ray photoelectron spectroscopy (XPS), respectively. IR measurements demonstrated that, nitrogen atom was indeed doped into diamond crystals, and the diamond crystals with perfect shape containing nitrogen concentration ranging from 461 atomic parts per million (ppm) to 2186 atomic ppm were successfully synthesized. Nitrogen atoms present in diamond crystal were predominantly in isolated form accompanied by a small amount of nitrogen pairs. Micro-Raman spectra implied that crystalline quality deteriorated with nitrogen concentration gradually increased in diamond-growing environment. The XPS spectra revealed that only a few of phosphorus impurities about tens of ppm level were incorporated into a diamond crystal which was heavily doped with P3N5. This study will promote the application of doping diamonds in micro-electronics field and other fields.

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“…Different impurities have different influences on the properties of diamond crystals [1][2][3]. For example, by doping phosphorus and boron, n-type and p-type diamond crystals can be synthesized, respectively.…”

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Effects of additive boron on HPHT diamond single crystals grown by TGM

Xiao

Qin

et al. 2011

Sci. China Phys. Mech. Astron.

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In this work, under pressure 5.4 GPa and temperature 1250-1400°C, large gem-diamond single crystals with perfect shape and different content of additive boron were synthesized using temperature gradient method. High-purity boron powders were added as boron source into the graphite powder, and the effects of additive boron on crystal growth habit were investigated in detail. The relationship between the growth rate and the amount of additive boron was studied. The scanning electron microscopy was employed to study the morphology of boron-doped diamond crystals. Raman spectroscopy and Hall measurements were used to investigate the crystal structures and the carrier concentration, respectively. The results show that with the increase of the content of boron added into graphite powder, the crystal growth rate and the carrier concentration increase firstly, and decrease afterwards, and the zone-center phonon line at 1332 cm 1 has small shift to lower energy. The defects occur on the crystal surface when excessive boron is added in the synthesis system. HPHT, boron-doped diamond, catalyst, carrier concentration

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Effects of additive NaN3 on the HPHT synthesis of large single crystal diamond grown by TGM

Cited by 9 publications

References 19 publications

Evolution of nitrogen structure in N-doped diamond crystal after high pressure and high temperature annealing treatment

Evolution of nitrogen structure in N-doped diamond crystal after high pressure and high temperature annealing treatment

Doping of Diamond Crystals with a Dopant of P<sub>3</sub>N<sub>5</sub>

Effects of additive boron on HPHT diamond single crystals grown by TGM

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