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Coatings research needs

Despite quite some progress reported in improving the performance and lifetime of anode materials, a great deal of research needs to be dedicated to the improvement of the cathode in Li-ion batteries. This task was addressed by hydrothermal carbon coating techniques. Thus, Olivine LiMP04 (Me = Mn, Fe, and Co) cathodes with a thin carbon coating have been prepared by a rapid, one-pot, microwave-assisted hy-... [Pg.213]

By scanning the data groups and the unique indexes, you can find the best information to fit your personal research needs. The major companies in chemicals, coatings and plastics are profiled and then ranked using several different groups of specific criteria. Which firms are the biggest employers Which companies earn the most profits These things and much more are easy to find. [Pg.31]

High-solids research needs to be focused on two fronts. One is synthetic, where the distribution of species from random copolymerization cannot be tolerated in oligomers. The other is rheological. Concentrated solution rheology needs to be elucidated as well as it has for dispersions and for conventional solution coatings. For papers in this area, the works of Ericksen (86). Schoff (87). and Lamb (88) are recommended. [Pg.770]

Recommendations 2, 3, and 4 (listed in order of decreasing priority) are related to performance, which is also considered to be a high priority. Recommendation 2 is the most important in this category. The oxidation resistance of oxide fibers is attractive, but poor creep resistance is a significant limitation. Thus, Recommendation 3 addresses the need to improve this property. Recommendation 4 (regarding non-oxide fibers) is last in this category because the committee concluded that resources directed toward property improvement in fiber coatings and oxide fibers was more important. The committee is satisfied that the preliminary properties reported for Si-B-N-C amorphous fibers are sufficiently attractive to stimulate the research needed to verify them. [Pg.22]

Solvent addition Solvent addition to solids and sludges enhances the diffusion from the solid sample to the fiber coating but needs further research. Solvent addition to aqueous samples usually reduces the extracted amount of analytes [174]. [Pg.636]

Allendorf M.D. Research needs for coatings on glass. Summary of the US Department of Energy roadmapping workshop. Thin Solid Films 2001 392 15163 Ameida R.M. Sol-gel planar waveguides for integrated optics. J. Non-Cryst. Sol. 1999 259 176-181... [Pg.355]

Alumina is used because it is relatively inert and provides the high surface area needed to efftciendy disperse the expensive active catalytic components. However, no one alumina phase possesses the thermal, physical, and chemical properties ideal for the perfect activated coating layer. A great deal of research has been carried out in search of modifications that can make one or more of the alumina crystalline phases more suitable. Eor instance, components such as ceria, baria, lanthana, or 2irconia are added to enhance the thermal characteristics of the alumina. Eigure 6 shows the thermal performance of an alumina-activated coating material. [Pg.485]

The vast increase in the application of membranes has expanded our knowledge of fabrication of various types of membrane, such as organic and inorganic membranes. The inorganic membrane is frequently called a ceramic membrane. To fulfil the need of the market, ceramic membranes represent a distinct class of inorganic membrane. There are a few important parameters involved in ceramic membrane materials, in terms of porous structure, chemical composition and shape of the filter in use. In this research, zirconia-coated y-alumina membranes have been developed using the sol-gel technique. [Pg.387]

The reactor, a commercially supplied quartz photochemical reaction vessel, was fitted to meet the needs of this research (Figure 1). This included use of a Teflon-coated magnetic stirring bar in the reactor, a fiitted glass sparger, a nitrogen line used to cool the UV lany, and an injection port. Deionized water was distilled prior to use. [Pg.409]

Electroless deposition as we know it today has had many applications, e.g., in corrosion prevention [5-8], and electronics [9]. Although it yields a limited number of metals and alloys compared to electrodeposition, materials with unique properties, such as Ni-P (corrosion resistance) and Co-P (magnetic properties), are readily obtained by electroless deposition. It is in principle easier to obtain coatings of uniform thickness and composition using the electroless process, since one does not have the current density uniformity problem of electrodeposition. However, as we shall see, the practitioner of electroless deposition needs to be aware of the actions of solution additives and dissolved O2 gas on deposition kinetics, which affect deposit thickness and composition uniformity. Nevertheless, electroless deposition is experiencing increased interest in microelectronics, in part due to the need to replace expensive vacuum metallization methods with less expensive and selective deposition methods. The need to find creative deposition methods in the emerging field of nanofabrication is generating much interest in electroless deposition, at the present time more so as a useful process however, than as a subject of serious research. [Pg.226]

The impacts of TSCA, such as those on two specific exemplary industries, surface coating polymers and metal-cutting fluids, by S.Oslosky and H.Fribush, respectively, are implied but actually not explicit within TSCA. Consider the required assessment of risks, the need for test-data describing effects on health and the environment, aside from plant inspections, subpoenas, prohibited acts, penalties for prohibited acts, enforcement and seizure, judicial review, citizens civil actions and petitions, and employee protection provisions in the Act. Thus, it s inevitable that the alert manufacturer will adjust his product research, development and selection processes to identify and use substances with reduced risk to health and the environment wherever possible. As structure-(biological)-activity relationships become more reliable, the alert... [Pg.4]

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