Add to ORKGUnderstanding the bonding of gold(I) species has been central to the development of gold(I) catalysis. Herein, we present the synthesis and characterization of the first gold(I)-cyclobutadiene complex, accompanied with bonding analysis by state-of-the-art energy decomposition analysis methods. Analysis of possible coordination modes for the new species not only confirms established characteristics of gold(I) bonding, but also suggests that Pauli repulsion is a key yet hitherto overlooked element. Additionally, we obtain a new perspective on gold(I)-bonding by comparison of the gold(I)-cyclobutadiene to congeners stabilized by p-, d-, and f-block metals. Consequently, we refine the gold(I) bonding model, with a delicate interplay of Pauli re...
We critically review recent experimental and theoretical investigations into some key aspects of the...
Several gold +I and +III complexes are investigated computationally and spectroscopically, focusing ...
The reaction of [C^C)Au(OEt2)2]+ with 1,5-cyclooctadiene or norbornadiene affords the corresponding ...
Understanding the bonding of gold(I) species has been central to the development of gold(I) catalysi...
The synthesis and characterization of hitherto hypothetical AuIIIπ-alkyne complexes is reported. Bon...
The synthesis and characterization of hitherto hypothetical AuIII π-alkyne complexes is reported. Bo...
The last decade has witnessed dramatic growth in the number of reactions catalyzed by electrophilic ...
International audienceInteractions of gold(I) catalysts with alkenes and alkynes are analyzed. Neutr...
Nucleophilic formal gold(-i) and gold(i) complexes are investigated via Intrinsic Bond Orbital analy...
Historically, chemists have been motivated by problems in total synthesis or by a desire to develop ...
A bibliographic review of the crystallographic literature has been conducted on gold(I) compounds be...
This thesis represents a progression of ideas surrounding chemistry of the two dominant oxidation st...
Using computational approaches, we qualitatively and quantitatively assess the bonding components of...
This research investigates the feasibility of integrating bio-adsorbents into the gold cyanidation p...
We critically review recent experimental and theoretical investigations into some key aspects of the...
Several gold +I and +III complexes are investigated computationally and spectroscopically, focusing ...
The reaction of [C^C)Au(OEt2)2]+ with 1,5-cyclooctadiene or norbornadiene affords the corresponding ...
Understanding the bonding of gold(I) species has been central to the development of gold(I) catalysi...
The synthesis and characterization of hitherto hypothetical AuIIIπ-alkyne complexes is reported. Bon...
The synthesis and characterization of hitherto hypothetical AuIII π-alkyne complexes is reported. Bo...
The last decade has witnessed dramatic growth in the number of reactions catalyzed by electrophilic ...
International audienceInteractions of gold(I) catalysts with alkenes and alkynes are analyzed. Neutr...
Nucleophilic formal gold(-i) and gold(i) complexes are investigated via Intrinsic Bond Orbital analy...
Historically, chemists have been motivated by problems in total synthesis or by a desire to develop ...
A bibliographic review of the crystallographic literature has been conducted on gold(I) compounds be...
This thesis represents a progression of ideas surrounding chemistry of the two dominant oxidation st...
Using computational approaches, we qualitatively and quantitatively assess the bonding components of...
This research investigates the feasibility of integrating bio-adsorbents into the gold cyanidation p...
We critically review recent experimental and theoretical investigations into some key aspects of the...
Several gold +I and +III complexes are investigated computationally and spectroscopically, focusing ...
The reaction of [C^C)Au(OEt2)2]+ with 1,5-cyclooctadiene or norbornadiene affords the corresponding ...