Matrix-isolated imidazoles, calculated

Irradiation of matrix-isolated imidazole-2-carboxylic acid gave the 2,3-dihydro-imidazol-2-ylidene-C02 complex (31) characterized by IR spectroscopy and calculated to lie 15.9 kcal mol above the starting material. A series of non-aromatic nucleophilic carbenes (32) were prepared by desulfurization of the corresponding thiones by molten potassium in boiling THF. The most hindered of the series (32 R = Bu) is stable indefinitely under exclusion of air and water and can be distilled without decomposition. The less hindered carbenes slowly dimerize to the corresponding alkenes. Stable aminoxy- and aminothiocarbenes (33 X = O, S) were prepared by deprotonation of iminium salts with lithium amide bases. The carbene carbon resonance appears at 260-297 ppm in the NMR spectrum and an X-ray structure determination of an aminooxycarbene indicated that electron donation from the nitrogen is more important than that from oxygen. These carbenes do not dimerize. 

The only problem for the matrix-isolation of 21 consisted in the non-availability of a reasonable diazo precursor molecule suited for this technique. But since we already had experience with the preparation of 2,3-dihydrothiazol-2-ylidene46 (see below) by photofragmentation of thiazole-2-carboxylic acid we tried the same method with imidazole-2-carboxylic acid (20). Indeed, irradiation of 20 with a wavelength of 254 nm leads to decarboxylation and the formation of a complex between carbene 21 and CO2. This is shown by the observation that the experimental IR spectrum fits only with the calculated spectrum of complex 21-CC>2 (calculated stabilization energy relative to its fragments 4.3 kcal mol-1). The type of fixation of CO2 to 21 is indicated in the formula S-21 C02. 

The dihydrothiazol-2-ylidene (4) was generated by photolysis of matrix-isolated thiazol-2-carboxylic acid.12 Calculations suggested that the barrier to isomerization to thiazole is about 42.3 kcal mol 1 and that the carbene resembles the related imidazol-2-ylidene in structure. An ab initio study of hydroxyoxiranone predicted that the decarboxylation of the zwitterion (5) to form hydroxycarbene (6) would be favourable in vacuo but not in water.13 A theoretical study showed that dihalosulfenes (X2C=S02) are best viewed as dihalocarbenc-SO complexes with a carbon-sulfur bond order of approximately zero.14 hi a study directed at the elusive thionformic acid (7), tandem mass spectrometric methods were applied to isomeric ethyl thioformates.15 The results suggest that the radical cations generated have the carbene structure [(HS)C(OH)]+ ... 

It was obvious, that the parent carbene 21 should be isolable in an argon matrix at 10 K. The barrier for the isomerization of 21 to imidazole 22 is calculated (B3LYP/6-311G(d,p)) to be rather high (41.5 kcal mol-1).45 Because of the interaction of the nitrogen lone pairs with the empty p-orbital of the car-benic center, carbene 21 should be a singlet molecule (S/T-gap = 81.6 kcal mol-1). 

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