The pitfalls of using JHF spin-spin coupling constants to infer hydrogen bond formation in organofluorine compounds.

Theoretical decomposition of "through space" spin-spin coupling constants (SSCCs) in organofluorine compounds signal that intramolecular hydrogen bonds (H-bonds) are not the primary mechanism of transmission for SSCCs. Increasing solvent polarity may disrupt H-bonds, but not necessarily the JFH SSCC. Substituent effects may drastically alter the SSCC transmission pathway. Accurate SSCC analysis requires benchmarking theoretical calculations to support experimental data interpretation.

Visible light-mediated photolysis of organic molecules: the case study of diazo compounds.

Considering the recent rapid advancement of synthetic technologies promoted by visible light in the last 15 years, the use of photocatalysts has been rightfully justified based on the fact that organic molecules generally do not absorb visible light. However, an increasing number of different classes of organic molecules is being identified as actually directly absorbing in this region of the electromagnetic spectrum. Among them, diazo compounds are possibly one of these classes whose chemistry has been more explored so far. Indeed, irradiation of these compounds with visible light has been introduced as a mild photolytic strategy generally leading to free carbene intermediates. This strategy not only allows for a more cost-economical approach revealing similar outcomes to some previously reported thermal, metal-catalyzed transformations; but it can also eventually lead to different reactivities. Herein, we will present the contributions of our laboratory and of other groups to this research area, along with some important elements of design behind the development of selected reaction profiles, aiming to provide the reader with an overall view of the current state of the art.