Omkar Kamble scite author profile

Indole is a core structure in many biologically important natural products such as heteroauxin, tryptophan, hypaphorine, bufotenine and gramine. Further, indole based natural products attracted the attention of many research groups due to their broad range of applications in pharmaceuticals, agrochemicals. Thus, it is essential to cover recent advances in the synthesis of indoles and its derivatives. Historically, indole and its derivatives are synthesized by numerous approaches, which is a vast subject and beyond the scope of this review. Herein, we particularly focused on the last five years progress in synthetic approaches for the construction of indole and its derivatives from the substituted 2‐ethynyl anilines using various approaches such as transition‐metal catalyzed cyclizations, metal‐free, and radical reactions. Therefore, we believe that summarizing these results may be very useful for chemists who are interested in the synthesis of heterocyclic compounds.

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Ultrasonic energy for construction of bioactive heterocycles

Kamble

Chatterjee

Dandela

et al. 2022

Tetrahedron

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Clinical progress of therapeutics and vaccines: Rising hope against COVID-19 treatment

Bandaru¹,

Rout²,

Kamble³

et al. 2022

Process Biochemistry

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Advances in transdermal delivery of nanomedicine

Kamble

Sanket

Samal

et al. 2021

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Biological interaction of dendrimers

Bandaru

Sanket

Rekha

et al. 2021

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Omkar Kamble

Applications of Ethynylanilines as Substrates for Construction of Indoles and Indole‐Substituted Derivatives

Ultrasonic energy for construction of bioactive heterocycles

Clinical progress of therapeutics and vaccines: Rising hope against COVID-19 treatment

Advances in transdermal delivery of nanomedicine

Biological interaction of dendrimers

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