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https://doi.org/10.1007/978-1-4614-4900-3their possible utilization have been conducted in recent years. Solutions of reduced carbon allotropes are an excellent basis for the generation of functional architectures. Solutions of reduced carbon nanotubides have been used to enrich metallic SWCNTS in solution, to fabricate transparent conduct

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Molecular Systematics of Plants are able to undergo self-assembly process enabling the formation of ordered molecular aggregates that in some cases assume conformations particularly suitable to nanotechnological applications. In this work we describe the properties of a ring-like decameric protein, Peroxiredoxin (Prx), to build c

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Molecular Systematics of Plants IIrication of biosensors, tissue engineering, and microelectronics. The directed combination of such natural templates with graphene or carbon nanotubes results in the development of a novel material which uses the features of both. We produced hybrid materials by giving to microorganisms the nutrient

CYN

Thermal Transport in Nanocrystalline Graphene: The Role of Grain Boundaries,s. Four- to eight-atomic rings are found to be the most abundant non-hexagonal polygons in the grain boundary for all mismatch angles. Tetra- and octagons are predominant for mismatch angles of 4.1° and 6.6° in contrast to nanocrystalline samples where penta- and heptagons are dominating. Out-of-pla

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Raman Spectroscopy of Graphene Nanoribbons: A Review,ould find several applications in nano- and opto-electronics. However, every production method gives rise to different types of ribbons, in terms of structural quality, width, edge pattern, and type of functional groups. In this review, we compare the Raman spectrum of graphene nanoribbons produced

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,Electron–Phonon Coupling in Two-Dimensional Superconductors: Doped Graphene and Phosphorene,ds allows to explore novel physical effects in the two-dimensional limit, where electronic, magnetic, and structural properties can be very different with respect to three-dimensional case. For example, the possibility to synthesize a two-dimensional superconductor will open the doors to new and une

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,Elastic Properties and Electron–Phonon Coupling of Graphene/Metal Interfaces Probed by Phonon Dispen both the energy and momentum domains. In this chapter, we show that the experimental phonon dispersion of graphene can be used to estimate elastic properties and electron–phonon coupling. Novel coupling mechanisms of Dirac cone electrons in graphene with out-of-plane optical phonons of the graphen

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, Calculations and Kinetic Process Simulations of Nitrogen-Doped Graphene, Doping can tune graphene’s carrier density, which is important for the optimization of graphene-based flexible and transparent electrodes. Moreover, if doping is confined within one out of the two equivalent graphene sublattices, considerable band gaps can open that could serve for switching device

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