2. Upgrading of limonene and other terpenes by palladocatalyzed C–H activation
2.1 Introduction
From a structural point of view, limonene – like other terpenes – is composed only of C–C and C–H bonds, making it an ideal biosourced substrate for the development of C–H activation reactions. In the literature, two C–H functionalization reactions of limonene – but not involving a CDC reaction – have been reported. Watson's group in 2018 describes a palladocatalyzed (boryl-Heck) C–H borylation of the exocyclic limonene alkene. The mechanism of this reaction is thought to involve an oxidative addition of the B bond–Br followed by carbopalladation of the resulting Pd(II) complex onto the alkene. This is followed by β-H elimination and reductive elimination of the Pd(II) hydride formed.
The Ultimate Scientific and Technical Reference
This article is included in
Environment manager
This offer includes:
Knowledge Base
Updated and enriched with articles validated by our scientific committees
Services
A set of exclusive tools to complement the resources
Practical Path
Operational and didactic, to guarantee the acquisition of transversal skills
Doc & Quiz
Interactive articles with quizzes, for constructive reading
Upgrading of limonene and other terpenes by palladocatalyzed C–H activation
Postfunctionalization: development of Sonogashira coupling in micellar medium
Bibliography
Directory
Organizations – Federations – Associations (non-exhaustive list)
Collaborative Innovative Training Network (ITN) on C–H activation – Consortium "C–H Activation for Industrial Renewal (CHAIR)" :
The Ultimate Scientific and Technical Reference
