Fabrication of Carbon nanotube-poly-methyl-methacrylate composites for nonlinear photonic devices

Authors
Martinez, AmosUchida, ShoSong, Yong-WonIshigure, TakaakiYamashita, Shinji
Issue Date
2008-07-21
Publisher
OPTICAL SOC AMER
Citation
OPTICS EXPRESS, v.16, no.15, pp.11337 - 11343
Abstract
Carbon nanotubes (CNT) are an attractive material for photonic applications due to their nonlinear optical properties, such as the nonlinear saturable absorption and high third order nonlinearity. However their utilization has been hindered by the lack of flexibility on the device design which rises from the current methods of Carbon nanotube deposition within the optical system. A suitable approach to solve this problem is to embed the CNTs in an optical material from which complex devices such as optical waveguides or optical fibers can be fabricated. Here, we propose a novel method to fabricate Carbon nanotube-doped poly-methyl-methacrylate (PMMA) composites in which the Carbon nanotubes are dispersed in the methyl-methacrylate (MMA) monomer solution prior to and during the polarization process. This method allows the bundle separation and dispersion of the CNT in a liquid state without the need for solvents, hence simplifying the method and facilitating the fabrication of volume CNT-PMMA. Volume fabrication makes this technique suitable for the fabrication of CNT-doped polymer fibers. In this paper, we also analyzed the merits of adding dopants such as diphenyl sulfide (DPS) and benzyl benzoate (BEN) to the CNT-PMMA composite and we observed that DPS plays the role of CNT dispersion stabilizer that can improve the device performance. The CNT-PMMA composite was employed to implement passive mode-locked laser. (C) 2008 Optical Society of America.
Keywords
SATURABLE ABSORBER; MODE-LOCKING; FIBER LASERS; MU-M; SATURABLE ABSORBER; MODE-LOCKING; FIBER LASERS; MU-M; Carbon nanotube; fiber laser; polymer composite; mode-locking
ISSN
1094-4087
URI
https://pubs.kist.re.kr/handle/201004/133314
DOI
10.1364/OE.16.011337
Appears in Collections:
KIST Article > 2008
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