Acid‐Acid‐Catalyzed Tandem Reactions Driven by an Additive‐Like Component

Abstract: Acid‐catalyzed tandem reactions with auto‐tandem catalysis are effective for simplifying organic synthesis. However, some of the reported reactions were established based on the use of well‐designed substrate with complex structure. In some cases, owing to the existence of a big gap between each catalytic cycle, it is hard to bind all the individual reaction steps to be a peaceful sequence. To enrich the diversity and also to strengthen the practical usefulness of the methodology developed by auto‐tandem catal… Show more

“…It should be mentioned that the indole component played two roles in the cascade reaction. It is one of the substrate molecules delivering the final products but, at the same time, it also worked as an additive-like component to convert highly reactive 5a to a more stable BIM 6a , 13 thus avoiding the possible occurrence of side reactions. This ensured the reaction proceeded through a well-designed sequence.…”

Brønsted acid-catalyzed cascade cyclization: an efficient strategy for divergent synthesis of cyclohepta[b]indole derivatives

“…It should be mentioned that the indole component played two roles in the cascade reaction. It is one of the substrate molecules delivering the final products but, at the same time, it also worked as an additive-like component to convert highly reactive 5a to a more stable BIM 6a , 13 thus avoiding the possible occurrence of side reactions. This ensured the reaction proceeded through a well-designed sequence.…”

Brønsted acid-catalyzed cascade cyclization: an efficient strategy for divergent synthesis of cyclohepta[b]indole derivatives

Unraveling the three‐dimensional morphology and dynamics of the optically evolving polystyrene nanoparticle assembly using dual‐objective lens microscopy

The literature of heterocyclic chemistry, Part XXI, 2021