Nano-oxides

R.A. Varin, T. Czujko, E.B. Wasmund, Z.S. Wronski, Hydrogen desorption properties of MgHj nanocomposites with nano-oxides and Inco micrometric-and nanometiic-Ni, J. Alloys Compd. 446-447 (2007) 63-66. [Pg.189]

Penner et al. have used the stepped surface of graphite electrodes as a template to form MoOx wires on its step-sites by electrode deposition [45]. The nano-oxide... [Pg.623]

Some nano-oxidizers which play a vital role in HEM formulations, have also been... [Pg.397]

Combinations with, Nano-Hydroxides, Nano-Oxides,... [Pg.301]

The different flame-retardant (FR) mechanisms of action of current nanoparticles, such as layered silicates, carbon nanotubes (CNTs), and nano-oxides or -hydroxides, according to their nature and interfacial modifications, are relatively well known and detailed in numerous works.5 13 These mechanisms are rather different from those exhibited by usual FRs and correspond mainly to the following physical, physicochemical, or chemical actions ... [Pg.302]

The growing interest in other categories of nanoparticles, such as synthetic anionic layered silicates, CNTs, nano-oxides or -hydroxides, metallic phosphates, etc., has materialized either through the study of combinations of those nanoparticles with layered silicates or with metal hydroxides or phosphorus FRs. Such combinations are also detailed in Section 12.3. Nevertheless, for some combinations, interpretations of the possible interactions between components are sometimes missing or not completely detailed. [Pg.303]

Combinations with, Nano-Hydroxides, Nano-Oxides, and Other Nanoparticles 12.3.2.1 Combinations with Nano-Hydroxides... [Pg.317]

Figure 4. Magnetoresistance v,y. applied field for a specular spin valve coupon sample with two nano-oxide layers (ref. 13).

A soft chemical route, known as the sol-gel method, has also been employed for the preparation of nano-oxides with uniform size and shape. This is a multistep process, usually consisting of hydrolysis of a metal alkoxide in an alcoholic solution to yield a metal hydroxide, followed by polymerization by elimination of water (gel-formation), drying off the solvent, and densification of the product to yield an ultrafine powder (Rao and Raveau, 1998 Khaleel and Richards, 2001). [Pg.521]

MNPs were synthesized using a surfactant-free oxidation process in an alkaline aqueous solution of deaerated 21 mM NaOH (pH 12 to 13) and 8.80 mmol NaNOs oxidant. Deaerated 0.1 M ferrons chloride (25 mL) was added to the alkaline solution, and the mixture was held at 4, 15, 25, or 37°C for 24 hours. The resulting MNPs were separated from solntion with a magnet and washed several times with pure water. We investigated the morphology and size, crystal phase, and magnetization of these MNPs using transmission electron microscopy, x-ray diffractometer, and VSM, respectively. [Pg.42]

The objective of the cast dispersion reinforcement approach was to develop an affordable, thermally stable, high-volume, oxide dispersion-strengthened alloy. The development of cast nano-oxide dispersion... [Pg.59]

Figure 4. Nano-yttria dispersed in metal using stir-casting (a) agglomerated nano-yttria, an active element-rich phase + microporosity (b) TEM showing agglomerated nano-yttria + detached nano-oxides.

Figure 5.7.7 shows a typical MR curve for our spin-valve material. Because it contains only two active magnetic layers, the effect is much smaller than that in GMR multilayers, but the slope at zero field is much steeper and so is the sensitivity of the device. To increase the magnitude of the effect, the whole stack can be doubled or mirrored (dual spin valve) and reflecting nano-oxide layers (NOL) can be included. These act as mirrors for the conduction electrons, which are specularly reflected (spin conservative) back into the magnetic layer. With these measures, effects of greater than 20% can be obtained [30]. [Pg.182]

Ti, and Nb by AFM tip induced nano oxidation with the help of forming electrochemical nanocell. A typical nanocell utilizing AFM tip for formation of Si02 nanostmcture is shown in Fig. 13.3 [10]. Figure 13.3 schematically represents different phases of electrochemical nanocell where AFM tip acts as a cathode and Si substrate acts as an anode. [Pg.245]

Matsumoto, K. 1996. Room temperature operated single electron transistor made by STM/AFM nano-oxidation process. Physica B 227(l-4) 92-94. [Pg.102]

Precaution DOT keep away from food fire and explosion hazard (dust, vapor) when exposed to heat or flame can react violently with NH,NOj, halogens, Brn, BrF, HCIO, CIO, CIE, HNO KNO, K2O2, NaNO oxidants... [Pg.981]

Other forms ofvery fine oxide fibers exist or are being developed. Single crystal whiskers which pose health risks and also present difficulties for handling, because of their very small dimensions, have not found wide use. Nano-oxide fibers are being developed which may be fine enough for liquid crystal technology to be used so as to handle them but as yet remain a possibility for the future. [Pg.30]

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