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Phosphorus, Arsenic, Antimony

The adsorption of CO on to gold surfaces has attracted a huge amount of interest due to the potential of catalysis and this topic has been reviewed by Meyer [8]. [Pg.342]

The chemical and physical properties of gold make it highly suitable for exploitation in diverse types of nanotechnologies. In particular, gold surfaces provide a convenient [Pg.342]

1 Glomm, W.R. (2005) Functionalized gold nanoparticles for applications in bionanotechnology. Journal of Dispersion Science and Technology, 26, 389 14. [Pg.343]

2 Kelly, K.L., Coronado, E., Zhao, L.L. and Schatz, G.C. (2003) The optical properties of metal nanoparticles the influence of size, shape, and dielectric environment. The Journal of Physical Chemistry B, 107, 668-677. [Pg.343]

3 Perez-Juste, J., Pastoriza-Santos, I., Liz-Marzan, L.M. and Mulvaney, P. (2005) Gold nanorods Synthesis, characterization and applications. Coordination Chemistry Reviews, 249, 1870-1901. [Pg.343]

F. G. Mann, The Heterocyclic Derivatives of Phosphorus, Arsenic, Antimony and Bismuth, 2nd ed., Wiley-Interscience, New York, 1970. [Pg.212]

The less common heteroatoms are those other than nitrogen, oxygen and sulfur (arid selenium and tellurium which are treated alongside sulfur), i.e. phosphorus, arsenic, antimony, bismuth, the halogens, silicon, germanium, tin, lead, boron and the transition metals. [Pg.2]

In catalytic incineration, there are limitations concerning the effluent streams to be treated. Waste gases with organic compound contents higher than 20% of LET (lower explosion limit) are not suitable, as the heat content released in the oxidation process increases the catalyst bed temperature above 650 °C. This is normally the maximum permissible temperature to which a catalyst bed can be continuously exposed. The problem is solved by dilution-, this method increases the furnace volume and hence the investment and operation costs. Concentrations between 2% and 20% of LET are optimal, The catalytic incinerator is not recommended without prefiltration for waste gases containing particulate matter or liquids which cannot be vaporized. The waste gas must not contain catalyst poisons, such as phosphorus, arsenic, antimony, lead, zinc, mercury, tin, sulfur, or iron oxide.(see Table 1.3.111... [Pg.1258]

Thompson and Tracy carried out tests in a moist ammoniacal atmosphere on stressed binary copper alloys containing zinc, phosphorus, arsenic, antimony, silicon, nickel or aluminium. All these elements gave alloys susceptible to stress corrosion. In the case of zinc the breaking time decreased steadily with increase of zinc content, but with most of the other elements there was a minimum in the curve of content of alloying elements against breaking time. In tests carried out at almost 70MN/m these minima occurred with about 0-2% P, 0-2% As, 1% Si, 5% Ni and 1% Al. In most cases cracks were intercrystalline. [Pg.707]

Heating with the following solids, their fusions, or vapours (a) oxides, peroxides, hydroxides, nitrates, nitrites, sulphides, cyanides, hexacyano-ferrate(III), and hexacyanoferrate(II) of the alkali and alkaline-earth metals (except oxides and hydroxides of calcium and strontium) (b) molten lead, silver, copper, zinc, bismuth, tin, or gold, or mixtures which form these metals upon reduction (c) phosphorus, arsenic, antimony, or silicon, or mixtures which form these elements upon reduction, particularly phosphates, arsenates,... [Pg.95]

Phosphorus, arsenic, antimony and bismuth multiply bonded systems with low coordination number — their role as complex ligands. O. J. Scherer, Angew. Chem., Int. Ed. Engl., 1984, 24, 924 (85). [Pg.69]

Phosphorus, Arsenic, Antimony and Bismuth Ligands Oxygen Ligands... [Pg.651]

The in-V compounds combine the elements of Group HI (aluminum, gallium, indium) with those of Group V (phosphorus, arsenic, antimony, bismuth). As can be imagined, a wide variety of compounds can be produced which, in addition to the binary materials, also include ternary and even quaternary materials. [Pg.333]

Many of the properties of the group 15 element diheteroferrocences are very similar to ferrocenes and other metallocenes. It seems justified to regard the diheteroferrocenes as perturbed ferrocenes just as we regard the group 15 heterobenzenes as perturbed benzenes. Thus, it is very clear that the elements phosphorus, arsenic, antimony, and bismuth can take part in 7r-bonding in a manner similar to carbon. [Pg.351]

Complexes with phosphorus, arsenic, antimony, or bismuth donor ligands 942... [Pg.911]

Bicyclic Systems with Bridgehead (Ring Junction) Phosphorus, Arsenic, Antimony, or Bismuth Atoms... [Pg.527]

See other pages where Phosphorus, Arsenic, Antimony is mentioned: [Pg.318]    [Pg.205]    [Pg.206]    [Pg.207]    [Pg.249]    [Pg.1038]    [Pg.12]    [Pg.341]    [Pg.437]    [Pg.28]    [Pg.337]    [Pg.341]    [Pg.148]    [Pg.1038]    [Pg.563]   


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