By S. Yamashita, Y. Saito and J.H. Choi (Eds.)
The optical houses of carbon nanotubes and graphene lead them to in all likelihood appropriate for numerous photonic functions. Carbon nanotubes and graphene for photonic purposes explores the homes of those fascinating fabrics and their use throughout quite a few applications.
Part one introduces the basic optical houses of carbon nanotubes and graphene prior to exploring how carbon nanotubes and graphene are synthesised. one other bankruptcy focusses on nonlinearity enhancement and novel education ways for carbon nanotube and graphene photonic units. Chapters partly talk about carbon nanotubes and graphene for laser purposes and spotlight optical achieve and lasing in carbon nanotubes, carbon nanotube and graphene-based fiber lasers, carbon-nanotube-based bulk solid-state lasers, electromagnetic nonlinearities in graphene, and carbon nanotube-based nonlinear photonic units. ultimately, half 3 focusses on carbon-based optoelectronics and contains chapters on carbon nanotube sun cells, a carbon nanotube-based optical platform for biomolecular detection, hybrid carbon nanotube-liquid crystal nanophotonic units, and quantum mild assets in keeping with person carbon nanotubes.
Carbon nanotubes and graphene for photonic purposes is a technical source for fabrics scientists, electric engineers operating within the photonics and optoelectronics and lecturers and researchers drawn to the field.
- Covers the houses and fabrication of carbon nanotubes and graphene for photonic applications
- Considers the makes use of of carbon nanotubes and graphene for laser applications
- Explores a variety of carbon-based mild emitters and detectors
Read Online or Download Carbon Nanotubes and Graphene for Photonic Applications PDF
Similar nonfiction_12 books
The 1984 category of the finite-dimensional constrained uncomplicated Lie algebras over an algebraically closed box of attribute $p>7$ supplied the impetus for a unique yr of Lie Algebras, held on the college of Wisconsin, Madison, in the course of 1987-88. paintings performed through the precise yr and in a while positioned researchers a lot nearer towards an answer of the long-standing challenge of opting for the finite-dimensional basic Lie algebras over an algebraically closed box of attribute $p>7$.
- Anaphoric relations in English
- Molecular Constants from Microwave Spectroscopy
- NHL 97
- Hands-on Morphological Image Processing
Additional info for Carbon Nanotubes and Graphene for Photonic Applications
Anyone who has used or seen a demonstration of an AFM or scanning tunneling microscope (STM) is probably familiar with the hexagonal surface of highly oriented pyrolytic graphite (HOPG). To obtain a flat surface for clear imaging, the topmost layers of the HOPG sample are cleaved from the bulk by simply attaching a piece of adhesive tape and peeling it off. The freshly cleaved HOPG is then placed on the sample stage while the piece of tape is discarded. One day, a group of researchers at Manchester University, UK, decided to see how far they could scale down the cleaving process.
G. , 2009). The electrical properties of CVD-grown graphene are still inferior to those of graphene obtained by exfoliation methods, but the optical properties of CVD graphene can be uniform over large areas (Fig. 15). , 2010), demonstrating the scalability of CVD methods. 14 Graphene growth mechanism proposed by Hofmann and coworkers in which the precursor (1) dissociates, (2) diffuses through the Ni, (3) re-emerges at a step edge, and (4) extends the sp2 graphene network. (Source: Reprinted with permission from Weatherup et al.
5, 2314. 21. T. Ando (2006) J. Phys. Soc. Jpn. 75, 024707. 22. A. Hartschuh, H. N. Pedrosa, L. Novotny and T. D. Krauss (2003) Science 301, 1354. 23. J. Lefebvre, J. M. Fraser, P. Finnie, and Y. Homma (2004) Phys. Rev. B 69, 075403. 24. K. Matsuda, Y. Kanemitsu, K. Irie, T. Saiki, T. Someya, Y. Miyauchi and S. Maruyama (2005) Appl. Phys. Lett. 86, 123116. 25. D. E. Milkie, C. Staii, S. Paulson, S. Paulson, E. Hindman, A. T. Johnson and J. M. Kikkawa (2005) Nano Lett. 5, 1135. 26. T. Inoue, K. Matsuda, Y.
Carbon Nanotubes and Graphene for Photonic Applications by S. Yamashita, Y. Saito and J.H. Choi (Eds.)