Thalliums silyl

Silyl thallium halides (t-Bu3Si) TlX3 OC = halide, = 1,2) have been reported. These compounds display relatively low thermal stability. (t-Bu3Si)2TlCl has been obtained bv the addition of... 

Aryltrimethylsilanes has been found to be a useful complement to direct thallation in the preparation of arylthallium(III) intermediates. The thallium(III) replaces the silyl substituent and the scope of the reaction is expanded to include some EWGs, such as trifluoromethyl. How does the silyl group function in these systems ... 

In the reaction of allyl acetate 217 with ketene silyl acetal 218 of methyl acetate, using a Pd catalyst coordinated to DPPP, cyclopropane 220 is formed in addition to the expected allylacetate 219 [104], The cyclopropanation becomes main reaction when TMEDA, as a ligand, and thallium acetate are added [105]. The cyclopropanation can be understood by the attack of the enolate ion at the central carbon of 7r-allylpalladium to form the palladacyclobutane 221, followed by reductive elimination. 

Transition metal carbodiimides, such as MnNCN and CuNCN, and carbodiimides derived from zinc, mercury,silver and thallium are also known. A preceramic polymeric titanium carbodiimide is obtained in the reaction of TiCU with bis(trimethyl-silyl)carbodiimide. Liganded carbodiimidotitanium complexes are obtained in the reaction of CpaTiCla with Me3SnN=C=NSi(i-Pr)3. ° Also, dicyclopentadienyl titanium (IV) diisocyanates are converted into carbodiimides with LiN(SrMe3)2. ... 

Cyclopropenes undergo an oxidative cleavage to yidd substituted enones, as shown in equation (27). The reaction is believed to proceed through the unstable qwxide. The regioselectivity is genoaOy low if R 9 R, but if one of the substituents is trimethylsilyl a hi y selective conversion to the a-silyl enone takes place. There is one report of a similar oxidative cleavage that takes place with thallium(ni). ... 

Organothallium compounds are now known in oxidation states +1, +2 (silyl ligands), and +3. Several review articles dealing with the organometallic chemistry of thallium are available. This article is essentially limited to organothallium compounds that contain at least one Tl bond. 

Nitrosolysis of camphor ethyl acetal with ethanolic ethyl nitrite in sulphur dioxide yields the orthoester oxime (205) which is rapidly dehydrated by excess acetal to the orthoester nitrile which then reacts with sulphur dioxide to form the ester nitrile and diethyl sulphite.Further papers in this section include the full paper on ozonolysis of silyl ethers (Vol. 5, p. 33), another synthesis of camphor-enol trimethylsilyl ether (cf. Vol. 6, p. 41)/°° the conversion of camphor oxime with Grignard reagents into the corresponding imine with no aziridine formation/° the preparation of (206) by treating bornylene with trichloroacetyl isocyanate/ the oxidation of thiocam-phor to the 5-oxide and alkylation in the presence of thallium(i) ethoxide to a/S-unsaturated sulphoxides/ and the free-radical C-3 alkylation of camphor with alkenes. " ... 

This method was employed in the stereospecific construction of a silyl diene in a synthesis of chlorotri-cholide (Scheme 2.80). The boronic acid partner 2.233 was prepared by hydroboration and hydrolysis. The vinyl iodide was 2.235 prepared by hydroalumination-iodination. The silyl group was included in order to boost stereoselectivity in the later Diels-Alder reaction, but also served to facilitate the synthesis of the vinyl iodide coupling partner. The Suzuki coupling yielded the diene 2.236 with retention of the stereochemistry of both alkenes. Thallium hydroxide was employed as the Lewis base. Thallium-containing Lewis bases have been found to be advantageous in a number of cases, but the toxicity of thallium is a serious concern. 

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