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Silver carbene synthesis

Deprotonation with aluminum alkys, 9, 272 mononuclear carbonyl iridium complexes, 7, 302 for palladium cyclopentadienyl complexes, 8, 390 in Ru and Os half-sandwich preparations, 6, 569 in silver carbene synthesis, 2, 206 Desulfurization... [Pg.93]

Imidazolium ligands, in Rh complexes, 7, 126 Imidazolium salts iridium binding, 7, 349 in silver(I) carbene synthesis, 2, 206 Imidazol-2-ylidene carbenes, with tungsten carbonyls, 5, 678 (Imidazol-2-ylidene)gold(I) complexes, preparation, 2, 289 Imidazopyridine, in trinuclear Ru and Os clusters, 6, 727 Imidazo[l,2-a]-pyridines, iodo-substituted, in Grignard reagent preparation, 9, 37—38 Imido alkyl complexes, with tantalum, 5, 118—120 Imido-amido half-sandwich compounds, with tantalum, 5,183 /13-Imido clusters, with trinuclear Ru clusters, 6, 733 Imido complexes with bis-Gp Ti, 4, 579 with monoalkyl Ti(IV), 4, 336 with mono-Gp Ti(IV), 4, 419 with Ru half-sandwiches, 6, 519—520 with tantalum, 5, 110 with titanium(IV) dialkyls, 4, 352 with titanocenes, 4, 566 with tungsten... [Pg.125]

Figure 3.54 Amide deprotonation during the synthesis of amino functionalised silver ( ) carbene complexes. Figure 3.54 Amide deprotonation during the synthesis of amino functionalised silver ( ) carbene complexes.
Recently, Peris and coworkers reported the synthesis of highly stable orthometallated Cp -Ir NHC complexes and a catalytic application in the deuteration of organic molecules. Complexes (227) were synthesized from imidazolium salt (225) and [IrCp Cl2]2 as metal precursor either by a one-step procedure with sodium iodide to minimize the mixture I versus Cl or by transmetallation from the corresponding silver carbene affording (226) followed by the C-H activation of the phenyl ring by the iridium... [Pg.6641]

A straightforward preparation for an air-stable silver carbene complex using a standard wet chemistry kit was presented. This experiment removed the tedious requirements of a carbene synthesis and allows for the inclusion of carbenes and carbene transfer agents in the undergraduate laboratory curriculum. [Pg.62]

Silver carbene complexes act as very efficient NHC transfer reagents for the synthesis of different metal-NHC complexes. On the other hand, as far as we know, there is only one example described to date where a silver-NHC complex was used for asymmetric catalysis. In 2006, Ferndndez and coworkers reported the first and only asymmetric catalysis using a chiral NHC-silver catalyst. Enantioselective diboration of styrenes was realized by using silver complex 111 as the catalyst (Scheme 3.70) [99], However, the diol was obtained in low yield and low enantioselectivity (less than 10% ee). [Pg.99]

Panzner MJ, Deeraksa A, Smith A, et al. Synthesis and in vitro efficacy studies of silver carbene complexes on biosafety level 3 bacteria. Eur J Inorg Chem. 2009 1739-1745. [Pg.287]

The fact that pentacarbonyl carbene complexes react with enynes in a chemo-selective and regiospecific way at the alkyne functionality was successfully applied in the total synthesis of vitamins of the Kj and K2 series [58]. Oxidation of the intermediate tricarbonyl(dihydrovitamin K) chromium complexes with silver oxide afforded the desired naphthoquinone-based vitamin K compounds 65. Compared to customary strategies, the benzannulation reaction proved to be superior as it avoids conditions favouring (E)/(Z)-isomerisation within the allylic side chain. The basic representative vitamin K3 (menadione) 66 was synthesised in a straightforward manner from pentacarbonyl carbene complex 1 and propyne (Scheme 38). [Pg.143]

Imidazolines are also formed in silver cyanide-catalyzed cyclization of alkyl isocyanides with aliphatic diamines (Scheme 103).169 This simple synthesis can be applied in a general way with difunctional nucleophiles and has been used to prepare benzimidazoles, oxazoles, thiazoles, and oxazines.169 It is suggested that transient carbene complexes are formed in these reactions (cf. 87 in Scheme 103) but further work is required to ascertain the mechanism and scope of these processes. [Pg.365]

Several reviews on the synthesis of aziridines have been published in the previous year. These publications include a review on the silver catalyzed addition of nitrenes (among other intermediates such as carbene) across a double bond <06EJOC4313> a review on sulfur ylide addition to imines to form aziridines <06SL181> a review on nitrogen addition across double bonds <06ACR194> a general review on functionalization of a,p-unsaturated esters with some discussion of aziridination <06TA1465>... [Pg.80]

Synthesis, Properties, and Reactions of Carbene Complexes of Silver 203... [Pg.197]

Reports on the coordination chemistry of A-heterocyclic carbene-containing metal complexes started to appear as long ago as 1968,50,51 while metal-free carbenes have only been isolated very recently.52 In view of the fact that the general chemistry and applications of organic carbenes and related metal complexes in chemical synthesis have been reviewed several times recently,53-57 examples limited only to those carbene complexes with silver(i) have been discussed. Nevertheless, it is worth mentioning that the developments in silver(i) A-heterocyclic carbenes have also been reviewed recently by Lin.5... [Pg.204]

Since the successful exploration of silver(i) oxide usage as a multifunctional precursor for the synthesis of silver(i) A-heterocyclic carbene complexes, there has been an increasing number of reports related to silver(i) A-heterocyclic carbene chemistry. Silver(i) oxide can act as a weak base to deprotonate imidazolium salts, generating the free A-heterocyclic carbene ligands in situ, which then forms the silver(i) carbene complexes readily. This reaction can take place in the presence of air and moisture, and as a result, no special treatment in regard to the solvents has to be undertaken. More importantly, its basicity is rather specific toward the deprotonation at the G2 position of the imidazole moiety. Exploration of using silver(i) carbonate as a milder precursor in place of silver(i) oxide has also been pursued, but longer reaction times are usually required. [Pg.206]

In spite of the fact that silver(i) X-heterocyclic carbene complexes were widely employed as carbene-transfer reagents for the synthesis of other transition metal carbene complexes, their synthesis could also be achieved by the reaction of silver salts with relatively more labile carbene metal complexes, albeit rare. Complexes 71a-71c were reported to be synthesized from the reaction of the corresponding pentacarbonyl(carbene)chromium(i) complexes with silver(i) hexafluorophosphate in CDC13 under inert atmosphere (Scheme 17).117... [Pg.221]

Apart from the widely studied silver(i) A-heterocyclic carbenes, Stoltz and Beauchamp made the first report on the gas-phase synthesis of silver(i) Fischer carbenes from the loss of N2 in various diazo malonates upon electrospray ionization and subsequent collisional activation.118 The carbenes generated were capable of undergoing multiple Wolff rearrangements and loss of CO (Scheme 18). [Pg.221]

The carbene transfer reaction from silver NHC complexes has developed into a standard procedure for the synthesis of NHC complexes. This versatile procedure was introduced by Lin et al. in 1998 [102]. It is based on the preparation of silver NHC complexes which are obtained in good yield by the in situ deprotonation of azolium salts with silver oxide (Fig. 9). Depending on the counter ions present in the azolium salt and the steric demand of the N,N -substituents, complexes 25a-25c... [Pg.105]

Synthesis of silver NHC complexes by the Ag20 method and carbene transfer to gold... [Pg.106]

Bis(guanidinato)bis(benzyl) complexes, with Zr(IV), 4, 776 Bis(heteroarene) vanadium complexes, preparation, 5, 48 Bis(heteroatom) polysilanes, synthesis, 3, 584 Bis(iV-heterocyclic carbene) ligands, in silver(I) complexes,... [Pg.65]

The synthesis and structural study of the stable P-heterocylic carbene 49 and related structures (e.g., structures 48 and 52 see Figure 3) have attracted some recent research activity <2005AGE1700, 2002JA2506, 2006AGE2598, 2006AGE7447>. The synthesis of the stable P-heterocylic carbene 49 was accomplished in two steps (1) a formal [3+2] cycloaddition of the readily available phosphaalkene 123 with acetonitrile in the presence of silver triflate afforded salt 124, and (2) the isolated and recrystallized salt 124 was deprotonated by lithium hexamethyldisilazide in tetrahydrofuran (THF) to afford carbene 49 as relatively stable light-yellow crystals (Scheme 10) <2005AGE1700>. [Pg.596]

Several silver complexes have been investigated in C-H insertion reactions of carbenes. One of the earliest reports by Sulikowski and Burgess describes an intramolecular C-H insertion of a chiral aryl diazoacetate 80 as part of a study on the total synthesis of mitomycin family of natural products (Scheme 8.15).41 Among several catalysts that were screened was AgSbly, in the presence of bis(isoxazoline)-type ligands, which led to the formation of the desired insertion product 81 in moderate yield and modest diastereoselectivity. [Pg.242]


See other pages where Silver carbene synthesis is mentioned: [Pg.218]    [Pg.233]    [Pg.132]    [Pg.350]    [Pg.79]    [Pg.204]    [Pg.205]    [Pg.206]    [Pg.209]    [Pg.210]    [Pg.210]    [Pg.215]    [Pg.218]    [Pg.220]    [Pg.168]    [Pg.6]    [Pg.113]    [Pg.159]    [Pg.287]    [Pg.138]    [Pg.154]    [Pg.705]    [Pg.243]    [Pg.136]    [Pg.568]   
See also in sourсe #XX -- [ Pg.2 , Pg.206 ]




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