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Nickel catalysts for

Recent patent activity suggests that DuPont is developing a new generation of chelating diphosphite—nickel catalysts for this technology which are significantly more active than the monodentate phosphite based catalyst system used for the last two decades (61—64). [Pg.221]

Zirconium tetrafluoride [7783-64-4] is used in some fluoride-based glasses. These glasses are the first chemically and mechanically stable bulk glasses to have continuous high transparency from the near uv to the mid-k (0.3—6 -lm) (117—118). Zirconium oxide and tetrachloride have use as catalysts (119), and zirconium sulfate is used in preparing a nickel catalyst for the hydrogenation of vegetable oil. Zirconium 2-ethyIhexanoate [22464-99-9] is used with cobalt driers to replace lead compounds as driers in oil-based and alkyd paints (see Driers and metallic soaps). [Pg.433]

Pure piperitone was subjected to the action of purified hydrogen, in the presence of a nickel catalyst, for six hours, the temperature ranging between 175° to 180° C. The double bond in piperitone was readily opened out with the formation of menthone, but further action of the hydrogen under these conditions did not reduce the carbonyl group, even after continued treatment for two days. Under correct conditions, however, the reduction to menthol should take place. The ease with which menthone is formed in this way is of special interest, not only in connection with the production of this ketone, but also as a stage in the manufacture of menthol. [Pg.240]

The catalyst losses in either system are moderate and not excessively costly when inexpensive iron catalyst is used (as for production of liquid hydrocarbons). It is questionable, however, whether comparable losses of expensive nickel catalysts (for methanation) could be tolerated. For this reason, it is quite likely that the fluidized catalyst system will be used for methanation only after a cheap methanation catalyst is developed. [Pg.36]

Neopentyl alcohol, 40, 76 Nickel catalyst for hydrogenation of resorcinol, 41, 56, 57 Nitramines from amines and acetone cyanohydrin nitrate, 43, 84 Nitration, of amines to nitramines by acetone cyanohydrin nitrate, 43, 83... [Pg.118]

The comparison of several nickel catalyst for the arylation of alcohols with arylbromide has been performed, in the same conditions of time, temperature and base, using different oxygen, phosphorus and nitrogen ligands. The yields for each catalyst, shown in the table (Fig. 9) range from 5 to 80 %. [Pg.248]

In a related reaction, aryl halides couple with vinyl tin reagents to form styrene derivatives in the presence of a nickel catalyst, for example, ... [Pg.931]

The Scientific Design of Activated Nickel Catalysts for Chemical Industry... [Pg.497]

Several nickel catalysts for the carbonylation of methanol have been reported,54"57 and an IR study has been described.58 The carbonylation of MeOH to form MeOAc and HOAc was studied using phosphine-modified Nil2 as the metal catalyst precursor. The reaction was monitored using a high-pressure, high-temperature, in situ Cylindrical Internal Reflectance FTIR reactor (CIR-REACTOR). [Pg.147]

Rostrup-Nielsen, J. R. 1974. Coking on nickel catalysts for steam reforming of hydrocarbons./. Catal. 33 184-201. [Pg.78]

Campbell, C. T., and Goodman, D. W. 1982. A surface science investigation of the role of potassium promoters in nickel catalysts for carbon monoxide hydrogenation. Surf. Sci. 123 413-26. [Pg.80]

Method C2 Nickel catalysts for olefin oligomerization may also be... [Pg.113]

The square-planar complex (34) NiCI2-(P-/i-Bu3)2 was a better catalyst than the tetrahedral complex NiBr2 (PPh3)2 for hydrosilation of styrene with trichlorosilane at temperatures of 150°-170°C. A nickel(0) complex, Ni[P(OPh)3]4, was as good as NiCl2(NC5H5)4, which was best among known nickel catalysts for this reaction. Addition of copper(I) chloride... [Pg.429]

Table 5.2 Effect of Promoters on the Activity of Skeletal Nickel Catalysts for Hydrogenation of Different Functional Groups... Table 5.2 Effect of Promoters on the Activity of Skeletal Nickel Catalysts for Hydrogenation of Different Functional Groups...
The Treatment of Activated Nickel Catalysts for the Selective Hydrogenation... [Pg.536]

Based on the formal analogy between the intermolecular hydrovinylation and the intramolecular cycloisomerization process, we have chosen catalysts with proven potential for the first reaction type [48, 51] as the starting point of our study. The results are summarized in Table 2.1.5.7 [64]. Despite its excellent performance in the hydrovinylation of styrene [51], the [ Ni(allyl) Br 2]/(Ra, Sc, Sc)-26/NaBARF system led to disappointingly low conversions and selectivities in the cycloisomerization of 27a (entry 1). Similarly, the [ Ni(allyl)Cl 2]/(Ra,Rc)-4cel/Na-BARF system is not effective for the cycloisomerization of 27a (entry 2) even though it is able to promote the hydrovinylation. The other diastereomer, (R ,Sc)-4cel, however, which forms an active nickel catalyst for styrene oligomerization... [Pg.271]

Specific activities of silica-supported nickel catalysts for benzene hydrogenation (ftH) and exchange (ftE) at 298 K [39,282]... [Pg.105]

It is clear that the influence of surface geometry upon catalytic activity is extremely complex and many more studies are required before any definitive relationship between catalytic activity and metal particle size can be established. Such studies will require to take cognisance of such factors as the perturbation of surface structure due to the formation of carbidic residues, as noted by Boudart [289] and by Thomson and Webb [95], and by the modification of catalytic properties on adsorption, as noted by Izumi et al. [296—298] and by Groenewegen and Sachtler [299] in studies of the modification of nickel catalysts for enantioselective hydrogenation. Possible effects of the support, as will be discussed in Sect. 6.3, must also be taken into account. [Pg.106]

Adipomtnle - [AMINES BY RED UCTTON] (Vol 2) - [COORDINATIONCOMPOUNDS] (Vol 7) - [CYANIDES] (Vol 7) -from acrylonitrile [ACRYLONITRILE] (Vol 1) -from acrylonitrile [ACRYLONITRILE] (Vol 1) -nickel catalyst for [NICKEL COMPOUNDS] (Vol 17)... [Pg.17]


See other pages where Nickel catalysts for is mentioned: [Pg.17]    [Pg.294]    [Pg.391]    [Pg.612]    [Pg.701]    [Pg.883]    [Pg.928]    [Pg.610]    [Pg.232]    [Pg.340]    [Pg.110]    [Pg.208]    [Pg.505]    [Pg.352]    [Pg.208]    [Pg.37]    [Pg.342]    [Pg.502]    [Pg.43]    [Pg.111]    [Pg.378]    [Pg.200]    [Pg.286]    [Pg.505]    [Pg.291]    [Pg.294]   
See also in sourсe #XX -- [ Pg.102 ]




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Gold-Nickel Alloy Catalysts for Steam Reforming

Nickel Catalysts for Steam Reforming and Methanation

Nickel catalyst for hydrogenation resorcinol

Nickel difluonde catalyst For alkenes

Nickel ion, as catalyst for decomposition

Nickel ion, as catalyst for decomposition of diazonium xanthates

Nickel, catalyst for hydrogenation

Preparation variables for new nickel catalysts modified with tartaric acid

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