Journal Article10.1002/ANIE.200604943
Lewis Base Catalysis in Organic Synthesis
1.2K
TL;DR: It has become increasingly apparent that the behavior of Lewis bases as agents for promoting chemical reactions is not merely as an electronic complement of the cognate Lewis acids: in fact Lewis bases are capable of enhancing both the electrophilic and nucleophilic character of molecules to which they are bound.
read more
Abstract: The legacy of Gilbert Newton Lewis (1875-1946) pervades the lexicon of chemical bonding and reactivity. The power of his concept of donor-acceptor bonding is evident in the eponymous foundations of electron-pair acceptors (Lewis acids) and donors (Lewis bases). Lewis recognized that acids are not restricted to those substances that contain hydrogen (Bronsted acids), and helped overthrow the "modern cult of the proton". His discovery ushered in the use of Lewis acids as reagents and catalysts for organic reactions. However, in recent years, the recognition that Lewis bases can also serve in this capacity has grown enormously. Most importantly, it has become increasingly apparent that the behavior of Lewis bases as agents for promoting chemical reactions is not merely as an electronic complement of the cognate Lewis acids: in fact Lewis bases are capable of enhancing both the electrophilic and nucleophilic character of molecules to which they are bound. This diversity of behavior leads to a remarkable versatility for the catalysis of reactions by Lewis bases.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Acyl anion free N-heterocyclic carbene organocatalysis.
TL;DR: This tutorial review selected examples of acyl anion free NHC catalysis using carbonyl compounds are presented.
768
Combining transition metal catalysis and organocatalysis--an update.
TL;DR: Recent remarkable progress in the field of combined transition metal catalysis and organocatalysis is summarized, further highlighting the potential of this new and exciting research area and the many challenges that still remain for the future.
631
Enantioselective synthesis of all-carbon quaternary stereogenic centers in acyclic systems
Jaya Prakash Das,Ilan Marek +1 more
TL;DR: This feature article summarizes the methods for the creation of all-carbon quaternary stereogenic centers in acyclic systems and is divided into sections on substitution and additions reactions, alkylation, aldol, Mannich and rearrangements reactions.
612
References
A New Method for the Catalytic Aldol Reaction to Ketones
TL;DR: A working hypothesis for the catalytic cycle is proposed, in which the dynamic ligand exchange mediated by copper silicates produces the active copper enolate.
127
A highly diastereoselective synthesis of 3-carbethoxy-2,5-disubstituted-3-pyrrolines by phosphine catalysis
TL;DR: Tributylphosphine was used as catalyst to facilitate a [3+2] cycloaddition between γ-substituted allenoates and N-sulfonylimines as mentioned in this paper.
125
•Book
d-Orbitals in the Chemistry of Silicon, Phosphorus and Sulfur
Harold Kwart,Kenneth King +1 more
- 13 Dec 1977
TL;DR: Theoretical basis for d-Orbital Involvement is discussed in this paper, where the effects of dp-? Bonding on Chemical Properties and Reactivity are discussed.
124