Similarities and Differences between the “Relativistic” Triad Gold, Platinum, and Mercury in Catalysis

Abstract: Relativistic effects in the valence shell of the elements reach a maximum in the triad Pt-Au-Hg and determine their catalytic activity in organic reactions. In this Review we examine the catalytic activity of Pt, Au, and Hg compounds for some representative reactions, and discuss the respective benefits and disadvantages along with other relevant properties, such as toxicity, price, and availability. For the reactions considered, gold catalysts are generally more active than mercury or platinum catalysts.

“…[1][2][3] Different solid-supported and homogeneous gold catalysts have been reported, and although the latter allows a fine tuning of the electronic/steric properties of the metal through ligand interactions, the former is preferred by economical, practical, and environmental reasons. [4][5][6][7] The electronic nature of gold nanoparticles as a function of size, shape, and interaction with the support has been studied for particular reactions and some structure-activity relationships (SARs) have been made 8-10 though a complete switch of reactivity for a single molecule by fine-tuning the catalytic activity of the nanoparticle is rarely presented.…”

Reactivity of Electron-Deficient Alkynes on Gold Nanoparticles

“…[1][2][3] Different solid-supported and homogeneous gold catalysts have been reported, and although the latter allows a fine tuning of the electronic/steric properties of the metal through ligand interactions, the former is preferred by economical, practical, and environmental reasons. [4][5][6][7] The electronic nature of gold nanoparticles as a function of size, shape, and interaction with the support has been studied for particular reactions and some structure-activity relationships (SARs) have been made 8-10 though a complete switch of reactivity for a single molecule by fine-tuning the catalytic activity of the nanoparticle is rarely presented.…”

Reactivity of Electron-Deficient Alkynes on Gold Nanoparticles

“…These results suggest that the methanol carbonylation on TiO 2 -supported gold occurs by a route that is analogous to those occurring on other supported metal catalysts. Analogies between the chemistry of gold catalysts and other metals have been proposed for other reactions[71,72]. For example, the group of Corma[71] reported that CeO 2 -supported gold catalysts function similarly to palladium catalysts for the Sonogashira cross-coupling reactions.…”

Methanol carbonylation catalyzed by TiO2–supported gold: An in-situ infrared spectroscopic investigation

“…This lack of precedents for Au(III)-diacetylides might indicate that the reactivity of the alkynes once s-bound to Au(III) is very high, including a potential reductive elimination. It has been proposed that the reductive elimination from a tetracoordinated planar Au(III) complex is favoured respect to other metals 33 since it leaves behind a two-coordinated Au(I) complex stabilized by relativistic effects [39][40][41] . To study the reductive elimination of alkynes from Au(III) and also if the distal size selectivity occurs at this stage, the Au(III) complex PPh 3 AuCl 3 was prepared 42 and the corresponding Au(III) acetylide complex of 1-dodecyne 1b was forced to be formed 43 .…”

Unique distal size selectivity with a digold catalyst during alkyne homocoupling