*Article* **Non-Palladium-Catalyzed Approach to the Synthesis of (***E***)-3-(1,3-Diarylallylidene)Oxindoles**

**Jahyun Koo, Minsu Kim, Kye Jung Shin and Jae Hong Seo \***

Integrated Research Institute of Pharmaceutical Sciences, College of Pharmacy, The Catholic University of Korea, Bucheon-si 420-743, Korea

**\*** Correspondence: jaehongseo@catholic.ac.kr; Tel.: +82-2-2164-6531; Fax: +82-2-2164-4059

**Abstract:** Two novel synthetic approaches for synthesizing (*E*)-3-(1,3-diarylallylidene)oxindoles from oxindole were developed. All previously reported methods for synthesizing 3-(1,3-diarylallylidene) oxindoles utilized palladium-catalyzed reactions as a key step to form this unique skeleton. Despite high efficiency, palladium-catalyzed reactions have limitations in terms of substrate scope. Especially, an iodoaryl moiety cannot be introduced by the previous methods due to its high reactivity toward the palladium catalyst. Our Knoevenagel/allylic oxidation/Wittig and Knoevenagel/aldol/dehydration strategies complement each other and show broad substrate scope, including substrates with iodoaryl groups. The current methods utilized acetophenones, benzylidene phosphonium ylides, and benzaldehydes that are commercially available or easily accessible. Thus, the current synthetic approaches to (*E*)-3-(1,3-diarylallyldiene)oxindoles are readily amendable for variety of oxindole derivatives.

**Keywords:** 3-(1,3-diarylallylidene)oxindole; knoevenagel condensation; allylic oxidation; wittig reaction; aldol reaction; non-palladium-catalyzed
