Microwave dielectric loss tangent measurements are demonstrated as a method for quantifying trace sp2-hybridized carbon impurities in sub-micron diamond powders. Appropriate test samples are prepared by vacuum annealing at temperatures from 600 to 1200 °C to vary the sp2/sp3 carbon ratio through partial surface graphitization. Microwave permittivity measurements are compared with those obtained using X-ray photoelectron spectroscopy (XPS), Raman spectroscopy, and electron energy loss spectroscopy (EELS). The average particle size remains constant (verified by scanning electron microscopy) to decouple any geometric dielectric effects from the microwave measurements. After annealing, a small increase in sp2 carbon was identified from the XPS C 1s and Auger spectra, the EELS σ* peak in the C 1s spectra, and the D and G bands in Raman spectroscopy, although a quantifiable diamond to G-band peak ratio was unobtainable. Surface hydrogenation was also evidenced in the Raman and XPS O 1s data. Microwave cavity perturbation measurements show that the dielectric loss tangent increases with increasing sp2 bonding, with the most pertinent finding being that thesevalues correlate with other measurements and that trace concentrationsof sp2 carbon as small as 5% can be detected.
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机译:证明了微波介电损耗角正切测量是量化亚微米金刚石粉中痕量sp 2 -杂化碳杂质的一种方法。通过在600至1200°C的温度下进行真空退火以通过部分表面石墨化改变sp 2 / sp 3 碳比来制备适当的试样。将微波介电常数测量结果与使用X射线光电子能谱(XPS),拉曼光谱和电子能量损失能谱(EELS)获得的测量结果进行比较。平均粒径保持恒定(通过扫描电子显微镜验证),以将任何几何介电效应与微波测量结果分离。退火后,从XPS C 1s和Auger光谱,C 1s光谱中的EELSσ*峰以及拉曼光谱中的D和G谱带发现sp 2 碳有少量增加。无法获得可量化的钻石与G波段峰值之比。在拉曼和XPS O 1s数据中也证明了表面氢化。微波腔扰动测量表明,介电损耗正切随sp 2 键的增加而增加,最相关的发现是值与其他测量值以及痕量浓度相关可以检测到Sp 2 的碳含量低至5%。
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