Synthesis selectivity

W. Kandehner in B. M. Trost and I. Fleming, eds.. Comprehensive Organic Synthesis Selectivity, Strategy andEfftcieny in Modem Organic Chemisty, Vol. 6, Pergamon Press, Inc., Ehnsford, N.Y., 1991, pp. 485—599. 

FORSTER - DECKER Amine Synthesis Selective monoalkylation of primary amines via imines An altemativa method is the reaction ol 1 and 2 in the preserve of NaCNBH4 or tnaceloxyborohydride (Borch reduction)/... 

Treatment of commercially available and symmetrical 3,4,5-tri-methoxytoluene (37) with iodine, periodic acid, and acetic acid under the conditions of Suzuki19 results in the formation of symmetrical diiodide 38 in 93 % yield. Although only one of these newly introduced iodine atoms is present in intermediate 13, both play an important role in this synthesis. Selective monodemethylation of 38 with boron trichloride furnishes phenol 39 in 53% yield together with 13 % of a regioisomer. Evidently, one of the Lewis-basic iodine substituents coordinates with the Lewis-acidic boron trichloride and directs the cleavage of the adjacent methyl ether... 

H. Hiemstra, W. N. Speckamp, in Comprehensive Organic Synthesis Selectivity, Strategy Efficiency in Modern Organic Chemistry, B. M. Trost, I. Fleming, Eds., Vol. 2, p 1047, Perga-mon, Oxford 1991. 

Sequencing and Synthesis. Selected Methods and Applications Schlesinger, D., Ed. Alan B. Liss Publishers, Ch 19, pp 243-250. 

As a general phenomenon, observed already by Fischer and coworkers, activity and FT synthesis selectivity develop in the initial time of a run in a process of Formierung (formation)16—in modem terms self-organization and catalyst restructuring. In order to achieve high performance of synthesis with cobalt as catalyst, the temperature had to be raised slowly up to the temperature of steady-state conversion. A distinct thermodynamically controlled state of the Co surface, populated with reactants and intermediates, can be assumed. This state depends on temperature and particularly on CO partial pressure, and its catalytic nature changes with changing conditions. 

Trost BM, Fleming I (1991) Comprehensive organic synthesis-selectivity, strategy and efficiency in modern organic chemistry. Elsevier, Oxford... 

Selective Reduction of the O-N-O Fragment in Cyclic and Bicyclic Fused Nitroso Acetals From the point of development of methodology of organic synthesis, selective reduction of the nitroso acetal fragment and associated processes are the most important reactions of nitroso acetals (also see Scheme 3.154). 

Trost, B.M., Fleming, I., Comprehensive Organic Synthesis Selectivity, Strategy, and Efficiency in Modern Organic Chemistry. Pergamon Press, New York, 1991, Vol. 8. 

This review article summarizes the broad area of electroorganic synthesis, (selected electroorganic synthetic reactions, with a special emphasis on those that have been commercialized or investigated in pilot plants) and selected applications of electrochemical techniques for waste-water and effluent treatment. There are a number of modern textbooks and updated reviews [4-53] of electroorganic chemistry that include much more detail on organic reactions and their mechanisms than it is appropriate to discuss here. 

CO pressure, secondary reactions and hydrocarbon synthesis selectivity effects, 39 257-260... 

T. Shiori, Degradation reactions , in Comprehensive Organic Synthesis, Selectivity, Strategy and Efficiency in Modern Organic Chemistry, Vol. 6 (Eds. B. M. Trost and 1. Heming), Chap. 4.4, Pergamon Press, Oxford, 1991, pp. 795-828. 

Trost, B. M., Fleming, L, Eds. Comprehensive Organic Synthesis Selectivity, Strateg , andEffidency in Modem Organic Chemistry, 1st ed. Pergamon New York, 1991 Vol. 3. 

Flucytosine Interferes with DNA and RNA synthesis selectively in fungi Synergistic with amphotericin systemic toxicity in host due to DNA and RNA effects Cryptococcus and chromoblastomycosis infections Oral duration, hours renal excretion Toxicity Myelosuppression... 

Asymmetric synthesis selective electrolysis electrochemical polymerization... 

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