Silvia Ranieri

Atropisomers of Arylmaleimides: Stereodynamics and Absolute Configuration

4-Aryl-3-bromo-N-benzylmaleimides and 3,4-biaryl-N-benzylmaleimides have been synthesized by a modified Suzuki cross-coupling reaction from 3,4-dibromo-N-benzylmaleimide. The conformational studies by dynamic NMR and DFT calculations showed that the interconversion barrier between the two available skewed conformations is under steric control. When the aryl group was a 2-methylnaphthyl, thermally stable atropisomers were isolated by enantioselective HPLC and their absolute configurations were assigned by TD-DFT simulations of the ECD spectra.

Vinylogous Reactivity of Oxindoles Bearing Nonsymmetric 3-Alkylidene Groups

The γ-functionalization of oxindoles bearing nonsymmetric 3-alkylidene groups via vinylogous Michael-type addition to nitroolefins was realized. The suppression of the interconversion between the E and Z isomers of the starting oxindoles allowed a site-specific diastereoselective and enantioselective transformation. Specific experiments allowed us to establish the rate-determining step of the reaction and to advance a robust hypothesis for the exclusive formation of an s-cis enolate as the only reactive intermediate.

Axial Chirality of 4-Arylpyrazolo[3,4-b]pyridines. Conformational Analysis and Absolute Configuration

The stereodynamic behavior of a series of pyrazolo[3,4-b]pyridines was studied. The restricted rotations of the aryl substituent in position 4 of the heteroaromatic ring and of the benzoyl group in position 5 generated conformational enantiomers or conformational diastereoisomers depending on the local symmetry of the aryl substituent, with very high rotational barriers despite the absence of ortho-substituents. The energy barriers for the rotation of the 5-benzoyl group and the 4-aromatic ring were measured by dynamic NMR and rationalized by DFT calculations. When the aryl substituent at position 4 was 1-naphthyl, the resulting atropisomeric pair was resolved by means of enantioselective HPLC and the absolute configuration was determined by TD-DFT simulations of electronic circular dichroism spectra.

The Experimental Observation of the Intramolecular NO2/CO Interaction in Solution

The weak electrostatic interaction between nitro and carbonyl moieties has been observed by means of variable-temperature NMR spectroscopy. Its energetic contribution was evaluated to be about 3 kcal mol(-1) by DFT calculations, and confirmed by the measurement of internal energy barriers to the rotation of suitable nitroaryl rings.

Enantioselective Preparation, Conformational Analysis and Absolute Configuration of Highly Substituted Aziridines.

The first example of organocatalytic aziridination reaction of α-substituted-α,β-unsaturated ketones is presented. The reaction was found to be highly enantio- and diastereoselective, yielding N-tosylated aziridines. Low-temperature nuclear magnetic resonance (NMR) spectra allowed for the determination of the N-inversion barrier, that was found to be quite lower with respect to unsubstituted aziridines. A thorough conformational analysis supported by low-temperature NMR data allowed for the determination of the absolute configuration of the main stereoisomer by means of time-dependent Density Functional Theory simulation of the electronic circular dichroism spectra.