AI Article Synopsis
- The study focuses on the development of a new type of rigid, three-dimensional polymers known as stepladder polymers, utilizing spirodihydroquinoline structures.
- These polymers are created through a reaction facilitated by a scandium catalyst that activates specific chemical bonds, allowing for the formation of complex structures from quinoline and alkyne compounds.
- The resulting polymers have increased thermal stability and porosity after undergoing a treatment that adds a methyl group to their nitrogen-containing functional groups.
Article Abstract
Polymers with rigid three-dimensional architectures have attracted significant attention due to their high rigidity and intrinsic microporosity. Here, we report the synthesis of a new class of rigid stepladder polymers featuring unique spirodihydroquinoline skeletons. Under the catalysis of a half-sandwich scandium catalyst, quinoline compounds bearing both an aryl substituent (e.g., phenyl or naphthyl) and an alkynyl group (e.g., C≡CSiMe) selectively undergo dearomative polyspiroannulation between the quinoline skeleton and the alkyne unit -C-H activation of the aryl group. This reaction efficiently yields rigid stepladder polymers comprising a spirodihydroquinoline skeleton with a quaternary carbon stereocenter and an unprotected N-H group. Treatment of the N-H-containing polymers with an alkyl lithium reagent followed by methyl iodide leads to quantitative formation of the corresponding -methylated polymers, which exhibit enhanced thermal stability and porosity compared to their N-H counterparts.
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