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Heteropolyanion

ELUCIDATION OF THE HETEROPOLYBLUE NATURE AND EXTRACTION-SPECTROPHOTOMETRIC DETERMINATION OF PHOSPHATE USING MIXED HETEROPOLYANIONS... [Pg.156]

Mechanism for RMC formation is proposed. Transfer of electrons from ascorbic acid proceeds through Me(III) atoms to molybdenum atoms in mixed POM. Me(III) atoms in heteropolyanion can be oxidized to Me(V) by Mo(VI) making possible easy oxidation of AA. [Pg.156]

In 1826 J. J. Berzelius found that acidification of solutions containing both molybdate and phosphate produced a yellow crystalline precipitate. This was the first example of a heteropolyanion and it actually contains the phos-phomolybdate ion, [PMoi204o] , which can be used in the quantitative estimation of phosphate. Since its discovery a host of other heteropolyanions have been prepared, mostly with molybdenum and tungsten but with more than 50 different heteroatoms, which include many non-metals and most transition metals — often in more than one oxidation state. Unless the heteroatom contributes to the colour, the heteropoly-molybdates and -tungstates are generally of varying shades of yellow. The free acids and the salts of small cations are extremely soluble in water but the salts of large cations such as Cs, Ba" and Pb" are usually insoluble. The solid salts are noticeably more stable thermally than are the salts of isopolyanions. Heteropoly compounds have been applied extensively as catalysts in the petrochemicals industry, as precipitants for numerous dyes with which they form lakes and, in the case of the Mo compounds, as flame retardants. [Pg.1014]

New inorganic electrode films based on molybdenum and tungsten oxides have been introduced for aqueous solutions heteropolyanion electrodes... [Pg.82]

PMo 12-polymer composite film catalyst [9]. This demonstrates that PM012 catalyst was not in a crystal state but in an amorphous-like state, indicating that PM012 catalyst was molecularly dispersed on the PS support via chemical interaction. As attempted in this work, it is believed that heteropolyanions (PMoi204o ) were strongly immobilized on the cationic sites of the PS bead as charge-compensating components. [Pg.299]

An intere.sting example in the context of waste minimization is the manufacture of the vitamin K intermediate, menadione. Traditionally it was produced by stoichiometric oxidation of 2-methylnaphthalene with chromium trioxide (Eqn. (8)), which generates 18 kg of solid, chromium containing waste per kg of menadione. Catalytic alternatives have been reported, but selectivities tend to be rather low owing to competing oxidation of the second aromatic ring (the. selectivity in the classical process is only 50-60%). The best results were obtained with a heteropolyanion as catalyst and O2 as the oxidant (Kozhevnikov, 1993). [Pg.37]

An alternative approach (Matveev et al., 1995), which avoids the selectivity problem mentioned above, is shown in Fig. 2.19. In this route, 1-naphthol is selectively methylated at the 2-position using methanol over a solid catalyst in the vapour phase. The product undergoes selective oxidation to menadione with O2 and a heteropolyanion catalyst. [Pg.38]

Similarly, 2,3,5-trimethyl-1,4-hydroquinone (TMHQ), a key intermediate in the synthesis of vitamin E, is produced via oxidation of 2,3,6-trimethylphenol to the corresponding benzoquinone. Originally this was performed by reaction with chlorine followed by hydrolysis, but this process has now been superseded by oxidation with O2 in the presence of a Cu2Cl2/LiCl catalyst (see Fig. 2.20) (Mercier and Chabardes, 1994). Alternatively, this oxidation can also be cataly.sed by a heteropolyanion (Kozhevnikov, 1995). [Pg.39]

Effects of acid strength and anion concentration have been studied as well as the effect of monodentate amines.564,565 Phosphines, in particular dppp, have been used as favorable ligands,566,567 but it has been shown that dppp is oxidized by nitrobenzene under the prevailing conditions.568 Giant clusters and heteropolyanions have been used.569,570 The role of nitroso... [Pg.185]

Finally, I should like to draw attention to the work of others who have provided models for metal oxides and their interactions with hydrocarbon and organometallie fragments. Specifically the work of Klemperer (62,63,64) and Knoth (65,66,-67) and their coworkers have provided us with discrete salts of the heteropolyanions to which a variety of organic/organometal-lic fragments have been adhered. [Pg.255]

Heterogenous reactions, Sh/Nu ratio, 27 64 Heteroligand complex, 32 260-262 Heteropolyacids defined, 41 117 heteroatoms, 41 118, 120, 121 Prins reaction, 41 156 supported, 41 149-150 Heteropolyanions, 41 113, 117, 119-121 Heteropoly blues, 41 191 Heteropoly compounds absorption, 41 179-180, 190-191 acid-catalyzed reactions heterogeneous, 41 161-178 liquid phase, 41 150-161 acidic properties in solid state, 41 141-150 in solution, 41 139—14] catalysis, 41 114, 116-117, 190-191 as catalyst, 41 113-116, 117, 223-232... [Pg.115]

Lactones in rhodium catalysis, 32 365-366 Lacunary Keggin anion, heteropolyanions, 41 ... [Pg.133]

Hj Dj exchange on, 26 39-43 heteropolyanion-supported, 41 230-231 high MiUer index, 26 12-15,35,36 -H-USY zeoUte, 39 186-187 hydrocarbons adsorption, 38 229-230 reactions of cyclopropane, cyclohexane, and n-heptane, 26 51-53 structural effects, 30 25-26 hydrogen adsorption on, 23 15 hydrogenation, 30 281-282 olefins, in ethanol, 30 352-353 in hydrogenation reaction, 33 101 -iron alloys, 26 75 isomerization, 30 2-3 isotope, NMR properties, 33 213,274 kinetic oscillations, 37 220-228 ball models of densely packed surfaces, 37 221-222... [Pg.178]

Notably, the strategy of using SOMC has not always been successful industrially if one excludes the field of olefin polymerization (supported metallocenes), some aspects of oxidation (supported heteropolyanions) and some aspects of selective dehydrogenation with Ni-Sn catalysts. [Pg.76]

Among several families of compounds used as molecular models for such surface silanolic grafting sites (mono or poly-silanols [10-12], heteropolyanions [13, 14], calixarenes [15, 16], tripodal amido complexes [17], etc.) some silsesquioxanes [18-23] can be considered among the most convincing molecular analogues of silica surface silanols. [Pg.557]

The Commission on the Nomenclature of Inorganic Chemistry is currently producing a further volume of the Nomenclature of Inorganic Chemistry, which will deal with more specialised aspects of inorganic nomenclature not currently treated in the 1990 version. For example, one chapter will be devoted to the nomenclature of nitrogen hydrides, another to the nomenclature of iso- and heteropolyanions and yet another to techniques and recommendations for abbreviations of names, especially ligand names. These chapters are innovative but also codify a great deal of established practice. [Pg.125]

See other pages where Heteropolyanion is mentioned: [Pg.1008]    [Pg.1014]    [Pg.1015]    [Pg.153]    [Pg.652]    [Pg.82]    [Pg.297]    [Pg.298]    [Pg.338]    [Pg.340]    [Pg.342]    [Pg.342]    [Pg.1]    [Pg.16]    [Pg.28]    [Pg.28]    [Pg.257]    [Pg.440]    [Pg.453]    [Pg.453]    [Pg.170]    [Pg.190]    [Pg.40]    [Pg.274]    [Pg.275]    [Pg.282]    [Pg.55]    [Pg.153]    [Pg.282]    [Pg.332]    [Pg.155]    [Pg.184]    [Pg.1106]   
See also in sourсe #XX -- [ Pg.527 , Pg.559 ]

See also in sourсe #XX -- [ Pg.309 ]

See also in sourсe #XX -- [ Pg.71 ]

See also in sourсe #XX -- [ Pg.99 ]



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Anderson heteropolyanions

Coordinated Heteropolyanions

Heteropolyacids, heteropolyanions

Heteropolyanions

Heteropolyanions

Heteropolytungstates with Unsaturated Heteropolyanions

Keggin heteropolyanions

Keggin structures heteropolyanions

Lacunary Keggin anion, heteropolyanions

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