Valery Yu. Dolmatov, Aleksander N. Ozerin, Alexander P. Voznyakovsky, Alexey A. Voznyakovsky, Natalya M. Lapchuk, Alexander I. Shames, Alexander I. Panich
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引用次数: 0
摘要
本文分析了从不同炸药中获得的爆轰纳米金刚石(DND)的红外光谱(IR光谱):TNT和RDX的合金;特屈儿;四基与RDX和三元混合物:TNT、RDX和四基的混合物。得到的dnd经过处理:在40 atm下220°C的氨水中,在430°C的气体介质(空气和氩气)中。结果表明,对不同的纳米金刚石进行高温处理的结果是一致的:无论初始炸药和改性性质如何,所有的纳米金刚石样品都有很强的氮杂质中心吸收带(826、~1100、1255、1328、1558 cm -1)。此外,所有样品都有明显的吸附水(1625-1637 cm-1)、羰基(1742-1790 cm-1)、Csp3-H基团(2853-2958 cm-1)和OH基团(3330 - 3397 cm-1)的拉伸振动带。
INFRARED SPECTROMETRY OF MODIFIED DETONATION NANODIAMONDS
The article analyzes the infrared spectra (IR spectra) of detonation nanodiamonds (DND) obtained from various explosives: from an alloy of TNT and RDX; tetryl; tetryl with RDX and a ternary mixture: a mixture of TNT, RDX and tetryl. The resulting DNDs were treated: with aqueous ammonia at 220 °C at 40 atm, in a gaseous medium (air and argon) at 430 °C. It was shown that high-temperature treatment of various DNDs leads to an identical result: all nanodiamond samples, regardless of the initial explosive and the nature of the modification, have strong absorption bands of nitrogen impurity centers (826, ~1100, 1255, 1328, 1558 cm –1). In addition, all samples have pronounced absorption bands of adsorbed water (1625–1637 cm–1), carbonyl group (1742–1790 cm–1), stretching vibrations of the Csp3–H group (2853–2958 cm–1), and stretching vibrations of the OH group (3330 – 3397 cm–1).
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