Publication date: Available online 12 November 2017
Source:Diamond and Related Materials
Author(s): Seung Pyo Hong, Sang Wook Ha, Seung Whan Lee
Controlled- and high-sp3/sp2 carbon ratio of the detonation-synthesized nanodiamond (DND) may play a very important role in many applications. Here, we demonstrated an atmospheric-pressure process of chemical purification using perchloric acid (HClO4) and intensively studied the control parameters including the reaction temperature, DND loading amount, and processing time. The sp3/sp2 carbon ratio was characterized using UV-Raman spectroscopy (325nm) and is evaluated based on the intensity ratio (IDia/IG) of the diamond peak and G band peak at 1325cm−1 and 1590cm−1, respectively. Through the combination of control parameters, we successfully controlled the intensity ratio of IDia/IG at the range from 0.28 to 1.5 and achieved 15.5% higher than compared with commercial DND. In addition, we also investigated the electrical conductivity of DND vs. intensity ratio of IDia/IG and the results show that lower intensity ratio of IDia/IG have higher electrical conductivity because of non-diamond carbon.
Graphical abstract
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