Synthesis carbonyl

The stoichiometric and the catalytic reactions occur simultaneously, but the catalytic reaction predominates. The process is started with stoichiometric amounts, but afterward, carbon monoxide, acetylene, and excess alcohol give most of the acrylate ester by the catalytic reaction. The nickel chloride is recovered and recycled to the nickel carbonyl synthesis step. The main by-product is ethyl propionate, which is difficult to separate from ethyl acrylate. However, by proper control of the feeds and reaction conditions, it is possible to keep the ethyl propionate content below 1%. Even so, this is significantly higher than the propionate content of the esters from the propylene oxidation route. 

Furoxans, bis[(acetoxyalkyl)carbonyl]-synthesis, 6, 421 Furoxans, bisarylsulfonyl-synthesis, 6, 423 Furoxans, bis(dialkylamino)-synthesis, 6, 414 Furoxans, butylhexynyl-synthesis, 6, 423 Furoxans, decamethylenering cleavage, 6, 405 Furoxans, diacyl-thermolysis, 6, 81 synthesis, 6, 442 Furoxans, diadamant-1-yl-ring cleavage, 6, 404 Furoxans, dialkoxycarbonyl-synthesis, 6, 423 Furoxans, dialkyl-synthesis, 6, 423 Furoxans, diaryl-ozonolysis, 6, 405 Furoxans, diaroyl-isoxazoles from, 6, 82 Furoxans, dibenzoyl-synthesis, 6, 423 Furoxans, diethoxycarbonyl-synthesis, 6, 423... 

Equation 11.16 Carbonylative synthesis of benzoic acid in the presence... 

Heterojunction with intrinsic thin layer (HIT) photovoltaic cell, 23 46-47 Heteroleptic uranium complexes, 25 441 Heterologous promoters, 22 453 Heteronano interface (HNI), 23 838 Heteronium bromide, 4 359t Heteronuclear metal carbonyls, synthesis of, 26 69-71... 

High molecular weight synthetic alkylated aromatic feedstocks, 23 533 High nuclearity carbonyl clusters, 16 64-66 High nuclearity metal carbonyl synthesis, 16 66-69 from salts, 16 68 from smaller carbonyls, 16 68-69 High ortho novolacs... 

Torrence P (2002) Carbonylations synthesis of acetic acid and acetic acid anhydride from methanol. In Cornils B, Herrmann WA (eds) Applied homogeneous catalysis with organometallic compounds, vol 1, 2nd edn. Wiley, Weinheim, p 104... 

FT-ICR, see Fourier-transform ion cyclotron resonance Fullerene[60], germanium-germanium addition, 10, 748 Fullerenes with cobalt, 7, 51 on cobalt Cp rings, 7, 73 inside metallodendrimers, 12, 401 microwave applications, 1, 334 Pd rc-complexes, 8, 348 Ru—Os complexes, 6, 830 with tungsten carbonyls, 5, 687 )2-Fullerenes, with platinum, 8, 634 Fulvalene actinide complex, synthesis, 4, 232 Fulvalene chromium carbonyls, synthesis and characteristics, 5, 264... 

Fulvalene zirconium(III) compounds, reactions, 4, 751 Fulvene chromium carbonyls, synthesis and characteristics,... 

H. Podall J. Chem. Educ. 38 187 (1961) Recent developments in metal carbonyl synthesis 5 (40) ... 

The chemistry of transition metal carbonyls synthesis and reactivity... 

Eschenmoser, A., Eelix, D., Ohioff, G. New fragmentation reaction of a,P-unsaturated carbonyls. Synthesis of exaltone and rac-muscone from cyclododecanone. Helv. Chim. Acta 1967, 50, 708-713. 

On the other hand, although the formation of carbonyls with Fe, Ni and Co is very common, it does not occur when PFSA films exchanged with their aquated Fe+, Ni, Co+, Co+, or Cu+2 ions are reacted, either hydrated or dehydrated, with CO in the 0.1 to 1.0 atm and 25°C to 220°C range (15). It seems clear that reduction of these ions is required prior to carbonyl formation. While that fact is well known in metal carbonyl synthesis, it isn t entirely clear why such reduction is necessary in this ionomer since a wide range of other metal ions in PFSA do form carbonyls. In some of these cases it may be that the hydration of the ions is too strong for the CO to displace H2O to form a relatively weak association. In other cases the reduction may simply require more of a driving force than can be provided by the H2, which is formally or actually formed in the films through reaction of CO and H2O. 

In the course of studying the stoichiometric, carbonylative synthesis of y-buty-rolactones from enones and a titanocene complex [37], it was observed that certain aryl enones could be cyclocarbonylated in a catalytic manner, Eq. (12) [38]. This success in effecting a titanocene-catalyzed cyclocarbonylation led to an examination of the analogous reaction with enyne substrates. Indeed, it was found that under similar conditions, a titanocene-catalyzed Pauson-Khand type cyclization was possible, Eq. (13) [36]. 

Chapter 23 Metal carbonyls synthesis, physical properties and structure 709... 

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