Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Alkynyliodonium salt

Feldman reported a route to dihydropyrroles, pyrroles, and indoles via the reaction of sulfonamide anions with alkynyliodonium triflates <96JOC5440>. Thus, upon nucleophilic addition of the anion of 91 to the p-carbon of the alkynyliodonium salt, the alkylidene carbene 92 is generated which can the undergo C-H insertion to the desired product 93. [Pg.107]

The regiochemistry of the hydrozirconation of disubstituted stannyl- [24, 167-170] and silyl- [171] acetylenes and boron- [118, 172-175] and zinc- [34, 126] alkynyl derivatives result in the formation of 1,1-dimetallo compounds. Hydrozirconation of alkynyliodonium salts affords alkenylchlorozirconocenes with the Zr-C bond geminal to the iodonium moiety [176]. These zirconocene complexes allowed the preparation of ( )-trisubstituted olefins (Scheme 8-20). [Pg.265]

The use of alkynyliodonium salts in the synthesis of 2,3-disubstituted 4,5-dihydrofurans was reported by Feldman. In this conversion, the addition of p-toluenesulfinate to ethers of 1-hydroxybut-3-ynyl(phenyl)iodonium triflates 79 induces a series of reactions that afford eventually 2-substituted 3-p-toIuenesulfonyl-4,5-dihydrofurans 80 . [Pg.147]

Alkynylphenyl tellurides from arylteUurolates and alkynyliodonium salts (general procedure) To a stirred solution of PhLi in Et20/cyclohexane at room temperature under N2, tellurium powder was added and the solution was stirred for 1 h. The appropriate iodonium triflate was added and the solution was stirred for 2 h. The product was eluted through a small portion of silica gel with CHjCN and the volume was reduced in vacuo followed by purification via radial chromatography. [Pg.109]

Besides iodonium ylides, alkynyliodonium salts are also useful in heterocyclic synthesis. These salts are obtained from the reaction of the alkynes with an appropriate organohypervalent iodine reagent (Scheme... [Pg.5]

Michael-type addition of an enolate anion to an alkynyliodonium salt probably produces the unstable iodonium ylide 34 34a. Loss of Phi from... [Pg.15]

Stang etal. (94JA93) have developed another alkynyliodonium salt mediated approach for the synthesis of y-lactams including bicyclic systems containing the pyrrole moiety. This method is based on the formation of 2-cyclopentenones 114 via intramolecular 1,5-carbon-hydrogen insertion reactions of [/3-(p-toluenesulfonyl)alkylidene]carbenes 113 derived from Michael addition of sodium p-toluenesulfinate to /3-ketoethynyl(phenyl) iodonium triflates 112 (Scheme 32). Replacing 112 by j8-amidoethynyl (phenyl)iodonium triflates 115-119 provides various y-lactams as outlined in Eqs. (26)-(30). [Pg.30]

Intramolecular bicyclization of tosylamide with alkynyliodonium salt (see Scheme 31), developed by Feldman and co-workers (95JA7544), is also applicable to the synthesis of A-tosylpiperidine derivatives related to polycyclic alkaloids (Eq. 40). Examples leading to seven-membered rings have also been reported. [Pg.56]

SCHEME 1. Representative methods for alkynyliodonium salt preparation. [Pg.134]

Our own interest in exploring alkynyliodonium salt chemistry was bom of a simple idea if we could identify amine substituents that brought the nitrogen s nucleophilicity within the acceptable range for alkynyliodonium salt addition, then we might be in a position to develop... [Pg.135]

FiGLRE 2. Synthesis targets for alkynyliodonium salt chemistry. [Pg.139]

The initial conceptualization of the agelastatin A problem took on the form shown below (Scheme 5).17 The key transform in this sequence features intramolecular addition of an amide-derived anion to a tethered alkynyliodonium salt within 33. The alkylidenecarbene generated from this nucleophilic addition, 32, then has a choice of two diastereotopic C-H bonds (Ha or Hb) for 1,5 insertion. Reaction with Ha would provide an advanced intermediate 31 en route to the target 28. Successful execution of this plan would extend alkynyliodonium salt chemistry in three new directions (1) use of an amine derivative as a nucleophile, (2) intramolecularity in the nucleophile addition step, and (3) diastereoselectivity upon alkylidenecarbene C-H insertion. At the initiation of this project, a lack of precedent on any of these topics suggested that focused scouting experiments to assess feasibility would be prudent before beginning work towards the natural product itself. [Pg.140]

SCHEME 5. A first generation approach to the agelastatin A skeleton through alkynyliodonium salt chemistry. [Pg.140]

Only the azide anion amongst the multitude of possible nitrogen nucleophiles had reported utility in alkynyliodonium salt addition chemistry at the inception of this project. Therefore, extension of this chemistry to amines and amide derivatives occupied our attention at the outset. The requirement for a soft, polarizable nucleophile limited our options, and screening a primary amine as well as some common amide derivatives in the prototype transformation 35 + 36 - 38 led to the first sense that this goal was achievable (Scheme 6).5a c In fact, the common amine protecting group tosyl proved to be the most effective modulator of amine nucleophilicity in this assay. Interestingly, amide pKa does not... [Pg.140]

Intramolecularity was the next issue to be probed within the context of alkynyliodonium salt/nucleophile addition reactions.53 1 No prior history was available to guide us, and so the prospects for success remained uncertain. Of primary concern was the potential for iodonium salt/base destructive interactions in competition with the desired N-H deprotonation reaction. A substrate that bore some resemblance to key portions of the agelastatin precursor 33 was prepared (Scheme 6), compound 39. This species duplicated the alkynyliodonium/"amide" pairing of the real system, but it lacked the complex piperazine carbene trap of 33. The tosylimide (pre)nucleophile was proposed as a compromise between what we really wanted (an N-methyl amide) and what would likely work (a tosylamide). Simple treatment of 39 with mild base effected the desired bicyclization to afford the tosylimide product 41 in decent yield. A transition state model 40 for C-H insertion that features an equatorial phenyl unit might rationalize the observed sense of diastereoselectivity. So, at least for 39, no evidence for possible interference by iodonium/base reactions was detected. [Pg.141]

SCHEME 9. Another failed attempt to access the agelastatin A skeleton via alkynyliodonium salt chemistry. [Pg.144]

SCHEME 10. Thethird (and final) approach to agelastatin Athrough alkynyliodonium salt chemistry. [Pg.145]

See other pages where Alkynyliodonium salt is mentioned: [Pg.15]    [Pg.583]    [Pg.40]    [Pg.563]    [Pg.449]    [Pg.449]    [Pg.133]    [Pg.133]    [Pg.133]    [Pg.133]    [Pg.134]    [Pg.134]    [Pg.135]    [Pg.135]    [Pg.136]    [Pg.136]    [Pg.137]    [Pg.138]    [Pg.138]    [Pg.138]    [Pg.139]    [Pg.139]    [Pg.139]    [Pg.141]    [Pg.141]    [Pg.142]    [Pg.143]    [Pg.143]    [Pg.145]    [Pg.145]    [Pg.149]   
See also in sourсe #XX -- [ Pg.120 , Pg.121 , Pg.122 , Pg.123 , Pg.124 , Pg.125 , Pg.126 , Pg.127 , Pg.128 , Pg.129 ]

See also in sourсe #XX -- [ Pg.262 ]

See also in sourсe #XX -- [ Pg.109 ]

See also in sourсe #XX -- [ Pg.67 , Pg.73 , Pg.83 , Pg.93 ]

See also in sourсe #XX -- [ Pg.187 , Pg.190 , Pg.197 ]



SEARCH



Alkynyliodonium salts preparation

Alkynyliodonium salts reactions

Alkynyliodonium salts, reactions with

Heterocyclic alkynyliodonium salts, synthesis

Intramolecular heterocyclic alkynyliodonium salts

Iodonium salts alkynyliodonium

Properties of alkynyliodonium salts

Reactions and uses of alkynyliodonium salts

Structure data, alkynyliodonium salts

© 2024 chempedia.info