Journal
ACS CATALYSIS
Volume 11, Issue 9, Pages 5061-5068Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acscatal.1c00752
Keywords
transition-metal-catalyzed borylation; metal-boryl complexes; density functional theory calculations; electronic structures and bonding; nucleophilicity; electrophilicity; principal interacting orbital
Categories
Funding
- Research Grants Council of Hong Kong [HKUST 16305119, 16300620]
Ask authors/readers for more resources
This study systematically investigates the reactivity of metal-boryl complexes using density functional theory calculations, revealing that the nucleophilic feature of boryl is diminished when the metal is more electronegative. The empty p orbital of boron and the d electrons in the metal can also influence the reactivity of the complex.
Transition metal-boryl complexes play an important role as reactive intermediates in catalytic borylation processes and have enjoyed tremendous exploration. Over the years, it has been well established that a boryl ligand possesses strong nucleophilicity in copper(I)-boryl complexes. Thus, the role played by boron's empty p orbital has often been overlooked and delectrons' effect from the metal is even more seldom mentioned, despite the fact that they in theory should also have influence on the reactivity of a metal-boryl complex. In this work, the reactivity of metal-boryl complexes has been systematically studied with the aid of density functional theory calculations. We have revealed that when the metal is more electronegative, the nucleophilic feature of boryl is diminished and will no longer be active, whereas when the boryl is not substituted with pi-donating groups, the empty p orbital of boron will be active and can serve as the electrophilic site. In addition, when the metal center changes from relatively inert d(10) to d(8), the d electrons can also play the role of a nucleophile. With a much more comprehensive understanding of metal-boryl complexes, this work will benefit the future catalyst design related to transition-metal-catalyzed borylation reactions.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available