Raman Spectra and Bulk Modulus of Nanodiamond in a Size Interval of 2–5 nm

机译：纳米金刚石的拉曼光谱和体积模量间隔为2–5 nm

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摘要

Nanodiamond in a 2–5-nm size interval (which is typical for an appearance of quantum confinement effect) show Raman spectra composed of 3 bands at 1325, 1600, and 1500 cm⁻¹ (at the 458-nm laser excitation) which shifts to 1630 cm⁻¹ at the 257-nm laser excitation. Contrary to sp²-bonded carbon, relative intensities of the bands do not depend on the 458- and 257-nm excitation wavelengths, and a halfwidth and the intensity of the 1600 cm⁻¹ band does not change visibly under pressure at least up to 50 GPa. Bulk modulus of the 2–5-nm nanodiamond determined from the high-pressure study is around 560 GPa. Studied 2–5-nm nanodiamond was purified from contamination layers and dispersed in Si or NaCl.

机译：纳米金刚石在2–5 nm的尺寸范围内（这通常表现为量子限制效应）显示拉曼光谱由1325、1600和1500cm ^{-1 （在458处）的3个谱带组成-nm激光激发），在257-nm激光激发下移动到1630 cm ^{-1 。与sp ^{2 键合碳相反，谱带的相对强度不依赖于458和257 nm激发波长，半宽度和1600 cm ^{-1 < / sup>频段在至少50 GPa的压力下没有明显变化。通过高压研究确定的2–5 nm纳米金刚石的体积模量约为560 GPa。研究的2–5 nm纳米金刚石从污染层中纯化并分散在Si或NaCl中。}}}}

著录项

期刊名称 Nanoscale Research Letters
作者
Mikhail Popov; Valentin Churkin; Alexey Kirichenko; Viktor Denisov; Danila Ovsyannikov; Boris Kulnitskiy; Igor Perezhogin; Viktor Aksenenkov; Vladimir Blank;
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作者单位

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年(卷),期 2017(12),-1
年度 2017
页码 561
总页数 6
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
Nanodiamond Raman Spectroscopy High Pressure;

机译：纳米金刚石;拉曼光谱;高压;

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专利

1. Raman Spectra and Bulk Modulus of Nanodiamond in a Size Interval of 2–5?nm [J] . Mikhail Popov, Valentin Churkin, Alexey Kirichenko, Nanoscale Research Letters . 2017,第1期

机译：纳米金刚石的拉曼光谱和体积模量间隔为2-5？nm
2. Communication: Three-dimensional model for phonon confinement in small particles: Quantitative bandshape analysis of size-dependent Raman spectra of nanodiamonds [J] . Vitaly I. Korepanov, Henryk Witek, Hajime Okajima, The Journal of Chemical Physics . 2014,第4期

机译：交流：将声子限制在小颗粒中的三维模型：纳米金刚石的尺寸依赖性拉曼光谱的定量能带分析
3. Communication: Three-dimensional model for phonon confinement in small particles: Quantitative bandshape analysis of size-dependent Raman spectra of nanodiamonds [J] . Vitaly I. Korepanov, Henryk Witek, Hajime Okajima, The Journal of Chemical Physics . 2014,第4期

机译：交流：将声子限制在小颗粒中的三维模型：纳米金刚石的尺寸依赖性拉曼光谱的定量能带分析
4. Effects of Surface Chemistry and Crystal Size on Raman Spectra of Nanodiamond [C] . V. Mochalin, S. Osswald, Y. Gogotsi Microscopy Society of America Annual Meeting;Microanalysis Society Annual meeting;International Metallographic Society Annual meeting . 2012

机译：表面化学和晶体尺寸对纳米金刚石拉曼光谱的影响
5. RAMAN-SPECTRA AND INFRARED-SPECTRA OF DEUTERATED PENTABORANE FREQUENCY ASSIGNMENT AND NORMAL COORDINATE ANALYSIS FOR NORMAL AND DEUTERATED PENTABORANE. [D] . CORIELL, SAM RAY. 1961

机译：正常和氘代五硼烷的氘代戊硼烷频率分配的拉曼光谱和红外光谱以及正常坐标分析。
6. Theoretical and Experimental Study of Phonon Spectra of Bulk and Nano-Sized MoS2 Layer Crystals [O] . Anatoliy Mikhailovich Yaremko, Volodymyr Oleksandrovych Yukhymchuk, Yuriy Anatolijovych Romanyuk, 2017

机译：块状和纳米级MoS2层晶体的声子谱的理论和实验研究
7. Size Effects on Surface Chemistry and Raman Spectra of Sub5 nm Oxidized High-Pressure High-Temperature and Detonation Nanodiamonds [O] . -1

机译：Sub5 NM表面化学和拉曼光谱的尺寸效应氧化高压高温和爆炸纳米金刚石

Raman Spectra and Bulk Modulus of Nanodiamond in a Size Interval of 2–5 nm

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