951287-30-2Relevant academic research and scientific papers
Alkali Metal Chlorine and Bromine Carbenoids: Their Thermal Stability and Structural Properties
Molitor, Sebastian,Gessner, Viktoria H.
, p. 12372 - 12379 (2017)
The synthesis and structures of a series of M/X carbenoids of the type [Ph2P(S)]2CMX with M=Li, Na, and K and X=Cl and Br are reported, amongst the first isolated Na/Br and K/Br carbenoids. NMR spectroscopic as well as crystallographic studies showed distinct differences between the lithium carbenoids and their heavier congeners. In the solid state, all carbenoids showed no direct metal–carbon interaction, but an interaction between the metal and the halogen atom. This contact is only very weak in the case of the Li/Br carbenoid, but much more pronounced in the corresponding potassium and sodium compounds. Nevertheless, these interactions did not significantly influence the stability of the carbenoids by weakening the C?X bond and facilitating the MX elimination. As such all compounds were found to be stable up to approximately 60 °C in solution. Hence, M?X interactions—albeit being an essential feature for the structure formation of carbenoids—are not the only criterion determining the stability of such compounds. In the present systems, the stabilization by the thiophosphinoyl moieties is more important than the metal/halogen combination.
From a stable dianion to a stable carbenoid
Cantat, Thibault,Jacques, Xavier,Ricard, Louis,Le Goff, Xavier Frederic,Mezailles, Nicolas,Le Floch, Pascal
, p. 5947 - 5950 (2007)
(Chemical Equation Presented) Robust, but reactive: The first example of a Li/Cl carbenoid that is stable at room temperature has been prepared by mild oxidation of a geminal dianion (see scheme). The electronic reasons behind this unusual thermal stabili
