Pyrolysis of tert-Butyl tert-Butanethiosulfinate, t-BuS(O)St-Bu: A Computational Perspective of the Decomposition Pathways

Abstract: A systematic theoretical study has been performed on the low pressure thermal decomposition pathways of t-BuS(O)St-Bu using the CCSD(T)/cc-pV(D+d)Z//B3LYP/6-311++G(2d,2p), CCSD(T)/cc-pV(D+d)Z//PBEPBE/6-311++G(2d,2p), and G3B3 level of theories. Rate constants for the unimolecular decomposition pathways are calculated using Rice−Ramsperger−Kassel−Marcus (RRKM) theory. On the basis of the experimental observation and theoretical predictions, the pyrolysis channels are considered as primary and secondary pyrolysi… Show more

“…An alternative pathway involves the formation of a tert ‐butyl radical as a result of homolysis of a tert ‐butylN bond, which is known to take place in tert ‐butyl azo‐compounds 5. The formation of isobutene from the tert ‐butyl radical is readily understood,4b but formation of NH‐imines would seem to require another process. In a previous study, McNab et al 6.…”

New Reactions of N‐tert‐Butylimines; Formation of N‐Heterocycles by Methyl Radical Elimination on Flash Vacuum Thermolysis of N‐Benzylidene‐ and N‐(2‐Pyridylmethylidene)‐tert‐butylamines

“…An alternative pathway involves the formation of a tert ‐butyl radical as a result of homolysis of a tert ‐butylN bond, which is known to take place in tert ‐butyl azo‐compounds 5. The formation of isobutene from the tert ‐butyl radical is readily understood,4b but formation of NH‐imines would seem to require another process. In a previous study, McNab et al 6.…”

New Reactions of N‐tert‐Butylimines; Formation of N‐Heterocycles by Methyl Radical Elimination on Flash Vacuum Thermolysis of N‐Benzylidene‐ and N‐(2‐Pyridylmethylidene)‐tert‐butylamines

“…The structure of 13 was elucidated by analysis of its rotational spectrum as well as that of its isotopologues 4b,4c. Recently, the mechanism of thermolysis of 12 , leading to 13 and S 2 O ( 14 ), was studied by means of computational methods 9. In accordance with earlier reported results,4a,4b the experiment conducted at 500 °C leads to elimination of isobutene ( 20 ) and the formation of 1‐oxatrisulfane derivative 19 (Scheme ).…”

“…The first step is an electrocyclic ring opening with a simultaneous H‐shift yielding 1‐oxatrisulfane derivative 22 . It corresponds to the mechanistic pathway postulated on the basis of computations carried out for 12 9. In both cases, the computed activation energies are below 30 kcal mol –1 .…”

“…It should be noted that the alternative pathway B corresponds to that computed for the fragmentation of 19 9. However, competitive homolytic fragmentation corresponding to pathway A (Scheme ) has not been considered in this report 9.…”

“…This important finding allows us to conclude that, in both cases, the reaction pathways are governed by analogous mechanisms in which sulfur radicals play a key role. The appearance and role of the sulfur radical 16 was not considered in either experimental or computational works focusing on the thermolyses of thiosulfinates 4,9…”

Thermolysis of 3,3,5,5‐Tetramethyl‐1,2,4‐trithiolane 1‐Oxide: First Matrix Isolation of the HOSS^· Radical

Elimination Reactions