Search results for "NANOMATERIALS"
showing 10 items of 291 documents
Graphene based metal and metal oxide nanocomposites: synthesis, properties and their applications
2015
Graphene, an atomically thin two-dimensional carbonaceous material, has attracted tremendous attention in the scientific community, due to its exceptional electronic, electrical, and mechanical properties. Indeed, with the recent explosion of methods for a large-scale synthesis of graphene, the number of publications related to graphene and other graphene based materials has increased exponentially. Particularly the development of easy preparation methods for graphene like materials, such as highly reduced graphene oxide (HRG) via reduction of graphite oxide (GO), offers a wide range of possibilities for the preparation of graphene based inorganic nanocomposites by the incorporation of vari…
EXAFS and XANES analysis of oxides at the nanoscale
2014
This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence.
Nanostructures materials for protection and consolidation of ancient structures
2014
The preservation and appreciation of the built cultural heritage is of particular interest, through researches and studies on innovative technologies. As evidenced by the good results obtained in some interventions both at national and international level, activities for the conservation of cultural heritage must be the result of synergies and collaboration of interdisciplinary groups, science and knowledge: architecture, engineering, technology, sociology, economics, urban planning, legislation must be managed and planned to work together. The theme of protection and consolidation of ancient structures, applying non-traditional technologies, requires a comprehensive overview of strategies …
Synthesis and Characterization of Halloysite-Cyclodextrin Nanosponges for Enhanced Dyes Adsorption
2017
Inorganic-organic nanosponge hybrids based on halloysite clay and organic cyclodextrin derivatives (HNT-CDs) were developed by means of microwave irradiations in solvent-free conditions. The HNT-CDs nanomaterials characterized by FT-IR, TGA, BET, TEM, SEM, DLS, and zeta-potential have showed a hyper-reticulated network which possesses both HNT and cyclodextrin peculiarities. The new HNT-CDs nanosponge hybrids were employed as nanoadsorbents, first choosing Rhodamine B as the dye model, and furthermore for the removal of some cationic and anionic dyes, under different pH values (1.0, 4.54, and 7.4). The collected results showed that the pH solution as well as the electrostatic interactions a…
Local structure of nanosized tungstates revealed by evolutionary algorithm
2015
Nanostructured tungstates, such as CoWO4 and CuWO4, are very promising catalytic materials, particularly for photocatalytic oxidation of water. The high catalytic activity of tungstate nanoparticles partially is a result of their extremely small sizes, and, consequently, high surface-to-volume ratio. Therefore their properties depend strongly on the atomic structure, which differ significantly from that of the bulk material. X-ray absorption spectroscopy is a powerful technique to address the challenging problem of the local structure determination in nanomaterials. In order to fully exploit the structural information contained in X-ray absorption spectra, in this study we employ a novel ev…
Electron beam induced growth of silver nanowhiskers
2015
Abstract In this paper we report an electron beam induced rapid (up to several tens of nm/s) growth of silver nanowhiskers from silver nanowire networks coated with TiO 2 by sol–gel method. Different growth conditions are tested and it is demonstrated that growth is optimal for samples with the film thickness in the range 50–200 nm and previously annealed at 400 °C for 5–10 min. Growth mechanism is attributed to cooperative effect of several factors including diffusion of Ag into TiO 2 matrix during annealing, electromigration of Ag atoms caused by strong electric field, and presence of mechanical stresses at interfaces enhanced by thermal expansions due to local heating under e-beam illumi…
Pd@Fe2O3 Superparticles with Enhanced Peroxidase Activity by Solution Phase Epitaxial Growth
2017
Compared to conventional deposition techniques for the epitaxial growth of metal oxide structures on a bulk metal substrate, wet-chemical synthesis based on a dispersible template offers advantages such as low cost, high throughput, and the capability to prepare metal/metal oxide nanostructures with controllable size and morphology. However, the synthesis of such organized multicomponent architectures is difficult because the size and morphology of the components are dictated by the interplay of interfacial strain and facet-specific reactivity. Here we show that solution-processable two-dimensional Pd nanotetrahedra and nanoplates can be used to direct the epitaxial growth of γ-Fe2O3 nanoro…
FTIR Studies of Silicon Carbide 1D-Nanostructures
2015
Stable 1D silicon carbide nanostructures (nanowires) have been obtained via combustion synthesis route. Infrared absorption and reflection spectra for as-obtained and purified SiC nanowires were compared with the spectra of commercially available SiC nanomaterials. Principal vibrational modes have been identified. Reflectivity spectrum has been reconstructed by modeling of the dielectric function
Metal Oxide Nanostructures in Sensing
2019
Abstract Metal oxides are well-known materials for the sensor and biosensor applications. In fact, the surface of metal oxides is a key factor for effective interaction with target molecules. Tailoring of the surface properties of metal oxide allows improving sensitive properties. The recent advances in nanotechnology open new possibilities for applications of metal oxides. Reducing the grain size to nanoscale increases the active surface area and induces new effect due to the quantum confinement such as bandgap widening, room temperature photoluminescence, etc. The novel physical effects in metal oxide nanostructures could be used for the development of sensor tool with advanced parameters…
Engineering nanoarchitectures for high performance solar cells
2020
Abstract Inorganic semiconductor nanomaterials are exploited for the solar energy conversion for the past few decades and astonishing efficiency records are achieved through various device architectures. Interesting morphologies such as nanospheres, nanorods, nanoplates, nanowires, nanotubes, and hierarchy nanostructures are delivering promising results and contributing high efficiency in various kinds of modern generation solar cells. These architectures are obtained by different synthesis approaches in which all the dimensions of the materials could perfectly be tuned through optimized physical parameters. Contributions of these architectures to long term-stability, good carrier transport…