Modeling and simulation of vibrational breathing-like modes in individual multiwalled carbon nanotubes |
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| Affiliation: | 1. Semiconductor Department, Materials and Energy Research Center, Karaj, Iran;2. Ceramic Department, Materials and Energy Research Center, Karaj, Iran;1. Centre for Non-Oxide Ceramics, International Advanced Research Centre for Powder Metallurgy and New Materials, Balapur Post, Hyderabad 500005, Telangana, India;2. Department of Metallurgical and Materials Engineering, Indian Institute of Technology Kharagpur, Kharagpur, West Bengal 721302, India;1. Faculty of Textile Science and Technology, Shinshu University, 3-15-1 Tokida, Ueda, Nagano 386-8567, Japan;2. Department of Applied Chemistry, Graduate School of Engineering, Tokyo University of Agriculture and Technology, 2-24-16 Naka-cho, Toganei, Tokyo 184-8588, Japan;3. Department of Chemistry, Faculty of Science, Shinshu University, 3-1-1 Asahi, Matsumoto, Nagano 390-8621, Japan;4. Center for Energy and Environmental Science, Shinshu University, 4-17-1 Wakasato, Nagano 380-8553, Japan;5. Energy Technology Laboratory, Osaka Gas Co., Ltd., 6-19-9 Torishima, Konohana-ku, Osaka 554-0051, Japan |
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| Abstract: | ![]()
We study the collective vibrational breathing modes in the Raman spectrum of multiwalled carbon nanotubes (MCNTs). First, a bond polarization theory and the spectral moment's method (SMM) are used to calculate the non-resonant Raman frequencies of the breathing-like modes (BLMs) and the tangential-like ones (TLMs). Second, the Raman active modes of MCNTs are computed for different diameters and numbers of layers. The obtained low frequency modes in MCNTs can be identified to each single-walled carbon nanotubes. These modes that originate from the radial breathing ones of the individual walls are strongly coupled through the concentric tube–tube van der Waals interaction. The calculated BLMs in the low-frequency region are compared with the experimental Raman data obtained from other studies. Finally, special attention is given to the comparison with Raman data on MCNTs composed of six layers. |
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| Keywords: | Multiwalled carbon nanotube Modeling and simulation Vibrational breathing-like mode Raman spectrum |
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