AI Article Synopsis
- The study attempted to prepare N-annulated planar Blatter radicals using aza-Pschorr and photocyclization methods, but primarily produced a zwitterionic heterocycle instead.
- In one method, a novel carbazole derivative was also generated, hinting at the potential formation of the elusive Blatter radical that breaks down easily due to N-R bond homolysis.
- DFT computational analyses indicate that -Ar derivatives of these planar radicals could be stable enough for isolation and allow for comparison of electronic structures with those containing O, S, and N-Ph groups.
Article Abstract
Preparation of the elusive N--annulated planar Blatter radicals was attempted using aza-Pschorr and photocyclization methods. In both methods, substrates containing N-Me and N-Ac groups yielded a zwitterionic heterocycle lacking the N-substituent as the main product, while in one of them a carbazole derivative representing a new heterocyclic system was also obtained. The formation of the zwitterion and the carbazole suggests the formation of the desired planar Blatter radical, which undergoes facile fragmentation through homolysis of the N-R bond. This mechanism is supported by DFT computational results, which also suggest that -Ar derivatives should be sufficiently stable for isolation. Electronic structures of three planar Blatter radicals annulated with the O, S, and N-Ph groups are compared.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10729016 | PMC |
| http://dx.doi.org/10.1021/acs.joc.3c02051 | DOI Listing |
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