Communication: Three-dimensional model for phonon confinement in small particles: Quantitative bandshape analysis of size-dependent Raman spectra of nanodiamonds

Vitaly I. Korepanov; Henryk Witek; Hajime Okajima; Eiji ōsawa; Hiro-o Hamaguchi

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Communication: Three-dimensional model for phonon confinement in small particles: Quantitative bandshape analysis of size-dependent Raman spectra of nanodiamonds

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

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Raman spectroscopy of nano-scale materials is facing a challenge of developing a physically sound quantitative approach for the phonon confinement effect, which profoundly affects the phonon Raman band shapes of small particles. We have developed a new approach based on 3-dimensional phonon dispersion functions. It analyzes the Raman band shapes quantitatively in terms of the particle size distributions. To test the model, we have successfully obtained good fits of the observed phonon Raman spectra of diamond nanoparticles in the size range from 1 to 100 nm.

机译：纳米级材料的拉曼光谱法面临着挑战，即开发一种物理上合理的声子约束效应定量方法，该方法将深刻影响小颗粒的声子拉曼能带形状。我们已经开发了一种基于3维声子色散函数的新方法。它根据粒径分布定量分析拉曼能带形状。为了测试模型，我们已经成功地获得了大小为1到100 nm的金刚石纳米粒子的声子拉曼光谱的良好拟合。

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《The Journal of Chemical Physics》 |2014年第4期|共4页
作者
Vitaly I. Korepanov; Henryk Witek; Hajime Okajima; Eiji ōsawa; Hiro-o Hamaguchi;
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正文语种 eng
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phonon; phonon; Raman;

机译：声子;声子;拉曼;

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1. 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
2. Raman Spectra of Crystalline Nanoparticles: Replacement for the Phonon Confinement Model [J] . Koniakhin Sergei V., Utesov Oleg I., Terterov Ivan N., The journal of physical chemistry, C. Nanomaterials and interfaces . 2018,第33期

机译：结晶纳米粒子的拉曼光谱：替换声音监禁模型
3. Applying an Improved Phonon Confinement Model to the Analysis of Raman Spectra of Germanium Nanocrystals [J] . V. A. Volodin, D. V. Marin, V. A. Sachkov, Journal of Experimental and Theoretical Physics . 2014,第1期

机译：改进的声子限制模型在锗纳米晶体拉曼光谱分析中的应用
4. Raman Spectroscopy of Silicon Nanowires: Phonon Confinement and Anharmonic Phonon Processes [C] . A. C. Ferrari, S. Piscanec, S. Hofmann, International Winter School on Electronic Properties of Novel Materials . 2003

机译：硅纳米线的拉曼光谱：声子限制和anharmonic源游戏过程
5. Optical phonon modes of III-V nanoparticles and indium phosphide/II-VI core-shell nanoparticles: A Raman and infrared study. [D] . Manciu, Felicia Speranta. 2004

机译：III-V纳米粒子和磷化铟/ II-VI核-壳纳米粒子的光学声子模式：拉曼和红外研究。
6. Phonon confinement and size effect in Raman spectra of ZnO nanoparticles [O] . Vitaly I. Korepanov, Si-Yuan Chan, Hsu-Cheng Hsu, 2019

机译：ZnO纳米粒子在拉曼光谱中的声子约束和尺寸效应
7. APPLYING AN IMPROVED PHONON CONFINEMENT MODEL TO THE ANALYSIS OF RAMAN SPECTRA OF GERMANIUM NANOCRYSTALS [O] . V. A. Volodin, D. V. Marin, V. A. Sachkov, 2014

机译：应用改进的声音限制模型对锗纳米晶体的拉曼光谱分析

Communication: Three-dimensional model for phonon confinement in small particles: Quantitative bandshape analysis of size-dependent Raman spectra of nanodiamonds

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